J. Thomas
Dickinson
WSU
Eminent Professor
Regents Professor
of Physics and Materials Science
Paul A.
Anderson Professor of Physics
(208)
882-3622 (home) FAX: (509) 335-7816
e-mail: jtd@wsu.edu website: http://www.wsu.edu/~jtd
Born:
Married: Wife (Diane), M. S. Computer
Sci., Systems Programmer,
EDUCATION:
Graduate
of WMU Honors College-first graduating class)
Thesis
Title: Hyperfine Structure of TlBr by Molecular Beam Radiofrequency
Spectroscopy
EXPERIENCE:
Assistant Professor of Physics, Washington State
University, 1968-74.
Associate Professor of Physics and Chemical Physics,
Washington State University, 1974-79.
Visiting Scientist, Chemical Engineering,
Visiting Scientist, Applied Physics,
Visiting Scientist,
Professor of Physics and Chemical Physics, Washington
State University, 1979-present.
Director, Center for Materials Research,
Graduate Faculty, Mechanical and Materials
Engineering, 1990-present.
Professor of Materials Science, 1990-present.
Director, Center for Materials Research, Washington
State University, 1991-1994.
HONOR
SOCIETIES:
Kappa
Omicron Delta Kappa
Sigma Xi
PROFESSIONAL
SOCIETIES:
American Physical Society (Fellow)
American Association of Physics Teachers
American Vacuum Society (Fellow)
American Association for the Advancement of Science
(Fellow)
American Chemical Society
Materials Research Society (Fellow)
SPIE (Fellow)
OSA
COMMITTEE
SERVICE AT WSU:
University
Member, Subcommittee of Catalog Committee on G.R.U.,
1972.
Member, Cross-College Coordinating Committee, 1978.
Member,
Member, Search Committee, Vice
Provost for Research, 1986-87.
Member, University Task Force on Research
& Grad. Education, 1987-88.
Co-Chairman, Committee for
Materials Research Center, 1987-1995.
Co-Chairman, Committee for
Materials Science Graduate Program, 1987-1999.
Member, Advisory Committee,
Molecular Sciences Initiative, 1988.
Member, Search Committee, Dean,
Division of Sciences, 1988-90.
Member,
Member, Catalog Sub-Committee,
1990-1992.
Co-Chairman, Review Committee
for Ph.D. Degree in Engineering Science, 1993.
Member, University President’s Teaching Recognition
Committee 1996-99.
Member, Search Committee, Vice Provost for Research,
2002-2003.
Member, Selection Committee, Distinguished Faculty
Address Award, 2003-present.
Elected to WSU Teaching Academy,
2004-present.
Chair, University Committee on
Undergraduate Research, Original Scholarship, and Creative Activity,
2004-present
Member,
Member, Graduate Education
Council; Chair of Interdisciplinary/Multidisciplinary Program task force, 2005-2006
Member, Search Committee, Dean
of College of Engineering, 2005-2006.
Advisory Committee, Materials
Science Program, 2006-present.
Selection Committee, Eminent
Professor Award, 2011-present.
Dean’s Selection Committee,
Regent’s Professor, 2012-present.
Department
or Division
Member, Committee on
Instruction, 1969-70.
Chairman, Committee on
Instruction, 1970-71, 1977-79.
Member, Search Committee for
Chairman of Physics, 1976-77.
Division of Science
Physics-Chemistry-Engineering Liaison Committee, 1971-72.
Director, Chemical Physics
Undergraduate Research Program, Summers 1971, 1972.
Seminar Leader "Interact
1974," Department of Architecture, WSU.
Physical Sciences-Engineering
Subcommittee,
Member, Physical/Mathematical
Sciences Advisory Council, 1983-1986.
Member,
Member, Division Technical
Services Committee, 1985-present.
Member, Physics Department
Undergraduate Studies Committee, 1980-present.
Chairman, Search Committee,
Physics Faculty Position, 1984-85.
Member, Search Committee,
Chemical Physics Position, 1986-87.
Chairman, Search Committee,
Physics Faculty Position, 1988-89.
Member, Search Committee,
Physics Faculty Position, 1989-90.
Chairman, Search Committee,
Physics WSU Tri-Cities Faculty Position, 1991-92.
Member, Search Committee,
Physics Faculty Position, 1993-94
Chairman, Search Committee,
Physics Faculty Position, 1997-98
Member, Search Committee,
Laboratory Supervisor in Physics, 1998-99.
Advisor, Physics Majors,
2001-present.
Chair, Undergraduate Studies
Committee, 2001-present.
Undergraduate Recruiting
Coordinator, 2001-present
Chair, Search Committee, Physics
Instructor Position, 2002-2003
Member, Search Committee,
Physical Chemistry Faculty Position, 2002-2004.
Member, Search Committee, Band
Professor of Theoretical Physics, 2002-2003
Member, College of Sciences
Tenure and Promotion Committee, three
Member, College of Sciences
Committee on Integrated Science, 2004-2010
Member, Honors College Advisory
Committee, 2009-2013
COURSES
TAUGHT:
Physics
for Engineers and Scientists (2 semester course) HONORS
Developed
Laboratory Course for above
Introductory
Physics (non-calculus)
Physics
and Society (see related publication)
Environmental
Science (one week/semester--Energy)
Honors
Physics (First and Second Semester) with Recitation
Modern Physics
Mechanics
Electricity
and Magnetism (2 semester course)
Advanced
Undergraduate Laboratory
Advanced
Atomic Physics
Molecular
Spectroscopy
Methods
of Spectroscopy and Surface Analysis
Mathematical
Physics (2 semester course)
Optoelectronics
Laboratory (2 two week experiments)
Freshman
Physics Seminar (coordinator and speaker)
Mathematica
for the Physical Sciences
Physics
and Astronomy Undergraduate Thesis
Seminar
courses in Surface Science, Condensed Matter, Materials Physics, Atomistics of
Fracture, Defects on Surfaces, Fractals-Chaos in Materials Science, STM and
AFM, Electron and Laser Beam Surface Interactions, Teaching Undergraduate Lab,
Laser Physics and Applications, Design and Techniques in Experimental Science,
Materials Chemistry, Laser Ablation and Desorption, Optical Properties of
Solids, Nanotechnology.
Recent Projects:
·
Facilitating
examination of issues concerning the role of e-Learning in WSU’s mission to
maintain excellence in undergraduate education; seeking funds for
support for WSU faculty to develop experimental courses using e-Learning techniques. Giving talks on-campus examining e-Learning. (2012-present).
·
Developing a
Hybrid (Blended) Course (all lectures online) with in class tutoring, example
problems, quizzes, exams. Course: Physics 342 (Electricity and Magnetism) Spring
2013
·
Extending above to
Physics 341 Fall 2013.
·
Developed a Computerized
Tutoring and Quizzing system based on Mathematica
for serious and challenging mathematical based issues in physics. The student is given some background material
and then asked to solve (sometimes only part of) a problem or small derivation
that has steps where equations can be entered – the program can determine if
the equation is correct; if not the
program can offer hints, help, info and offer a re-try. Closely related questions can be offered
also. Complete correct solutions can be
part of the package if desired – a button takes you there if the instructor so
wishes.
Undergraduate Research:
·
Major proponent
for appointment of a Undergraduate Research Director and University funding of
undergraduate research at WSU (2000-present).
·
Mentored ~ 1-2
students every year (often in summer).
~80% of the work is published.
PROFESSIONAL
SERVICE AND RECOGNITION:
NSF Graduate Fellow, U.
Invited Participant-Commission on College Physics Lab
Workshop, 1970.
NASA-ASEE Faculty Fellow, 1976.
NSF International Travel Grant
(1979).
Visiting
Distinguished Professor,
Visiting
Distinguished Professor, Instituts für
Werkstoffwissenschaften und -technologie,Technischen Universität,
Berlin, Oct/Nov. 1990.
Washington
State University Distinguished Faculty Address Award, 1991.
3M Corporation Faculty Grant, 1991-94.
Invited Speaker at 16 Gordon Research Conferences,
including Elastomers, Glass, Composites,
Adhesion, Particle-Solid Interactions, Laser Ablation, Fractals, Rock
Deformation, and Tribology.
Washington
State University President's Faculty Excellence Award in Research and Creative
Activity, 1993.
Elected Fellow,
American Vacuum Society, 1993 (first year AVS Fellows were chosen).
Washington
State University College of Sciences Distinguished Research Faculty Award,
1994.
Westinghouse Faculty Award in Materials Science, 1994.
Chair,
Gordon Conference on Laser
Interactions with Materials, June, 1996.
Visiting Distinguished Professor, Abteilung für
Angewandte Physik der Johannes-Kepler-Universität Linz Oct/Nov. 1998.
Visiting Distinguished Professor,
Institute for Lasers and Electronics, FORTH,
Thomas
Lutz Teaching Excellence Award, College of Sciences, 2001.
Named
Paul A. Anderson Professor of Physics, Washington State University, June, 2002.
Vice-Chair,
Gordon Conference on Laser-Surface Interactions, July, 2002.
Elected Fellow, American Physical Society, 2002.
Marian E. Smith Faculty Achievement
Award in Teaching, 2003.
The
Distinguished Alumni Award,
Chair, Gordon Conference on Laser-Surface Interactions, July, 2004.
Vice-Chair,
Gordon Conference on Tribology, June, 2004.
Named Regents Professor, WSU, 2004.
Chair, Gordon Conference on Tribology, 2006.
Elected Fellow, American Association for the
Advancement of Science (AAAS), 2005
WSU Sahlin Faculty Excellence Award for
Instruction, 2006.
WSU Freshmen Convocation Address, 2006.
William
Williams Award, Department of Physics, University of Michigan, 2007.
WSU Eminent Professor Award, 2007.
WSU Freshmen Convocation Address, 2007.
Elected Fellow, Materials Research Society (First year
MRS Fellows were chosen), 2008.
WSU Honors College Undergraduate
Research Mentor Award, 2008.
Elected Fellow, The International Society for Optics
and Photonics (SPIE), 2008.
College of Arts and Sciences Outstanding
Career Achievement in Scholarship/Creative Activities Award
Professional
Service
Produced Annotated Translation
of "Concerning the Quantization of Direction in a Magnetic Field" by
W. Gerlach and O. Stern, for Educational Services, Inc., 1966 (for an
educational film on the Stern-Gerlach experiment)., 1967.
Director (Board Member) of
Evaluated several manuscripts
for physics texts for publishers.
Presented numerous talks and
served on panels throughout
Referee for:
Surface Science, Applications of Surface Science, Physics Letters A, J.
Vac. Sci. Technol., Surface Science Letters, Catalysis Lett., J. Mat. Research,
J. of Adhesion, J. Am. Chem. Soc..,
Geophysical Research Letters., J. Phys. and Chem. of Solids, Ferroelectrics
Rev., Phys. and Chem. of Minerals, J. Phys. D: Appl. Phys., J. Am. Ceramics
Soc., J. Trib. Lett., J. Phys. Chem. A and B, Chem. Reviews, Langmuir, Science.
Referee for Proposals: NSF, DOE,
Member,
Presented Program "Physics
of Breaking Things" at
Member, Program Committee,
American Vacuum Society National Meeting, 1984-85.
Participant, Peer Review Committee,
Physical Sciences Branch,
Member,
Member, Program Committee, MRS Symposium: Atomic
and Molecular Processing of Electronic and Ceramic Materials: Preparation,
Characterization, and Properties, August, 1987.
Member, Advisory Board, International Symposium on
Exoelectron Emission and Applications, from 1988 to present.
Co-Chair, Topical Sessions on Brittle Fracture, APS
March Meeting,
Member, Program Committee, PNWMC Symposia on
"Science of Materials,” 1989.
Participant, NASA Workshop on Contamination Problems
on Space Station, Nov. 1987.
Participant, ONR and NIST Workshop on Fundamental
Concepts in Theory of Fracture,
Symposium Chair: "Fracture and Deformation of
Ceramics"
Session Chair at numerous APS March Meetings, American
Ceramics Society, American Vacuum Society.
Trustee,
Vice-President,
Chairman,
Member, Steering Committee for Materials
Science--Molecular
Editorial Board,
Journal of Adhesive Science and Technology, 1992-2002.
Co-Chair, Topical Sessions on “Electronic Processes in
Laser Desorption/Ablation,” APS March Meeting, Seattle, 1993.
Washington State University President's Faculty
Excellence Award in Research and Creative Activity, 1993.
Washington State University College of Sciences
Distinguished Research Faculty Award, 1994.
Outside Reviewer, Materials
Science, Battelle-PNNL, July, 1994.
Co-Chair, Symposium on Laser Processing of Materials,
APS March Meeting, 1995.
Co-Chair, Symposium on Energetic Processes in Thin
Film Growth, MRS Spring Meeting, 1995.
Chairman, Gordon Conference on Laser Interactions with
Materials, June, 1996.
Member, Organizing Committee, Conference on Laser
Ablation III, 1995 and COLA IV, 1997, COLA VI, 1999
Peer Reviewer, EMSL, Battelle-PNNL, June, 1997.
Peer Reviewer, LBNL-Chemical Sciences, March, 1998.
Visiting Professor, Abteilung für Angewandte Physik der
Johannes-Kepler-Universität Linz Oct/Nov.
1998.
Co-Chair, Topical Sessions on “Physical Processes in
Laser Desorption/Ablation,” APS March Meeting, Atlanta, 1999.
Member, User Advisory Committee, EMSL-Pacific
Northwest National Laboratory, 2000-2007.
Chairman, Pacific Northwest Division of the American
Vacuum Society 2000; annual meeting chair, Sept. 2000.
Visiting Professor, Institute for Lasers and
Electronics, FORTH, Crete, Greece, Oct. 2000; January, 2001.
Member, Organizing Committee, SPIE Symposium: Laser Applications in Microelectronic and
Optoelectronic Manufacturing V, January, 2001.
Member,
Organizing Committee, Advanced Laser Technologies Conference, Constanta, Romania, Sept.
2001.
Co-Chair, Conference on Laser Ablation (COLA VI),
Tsukuba, Japan, Oct. 2001
Member,
American Vacuum Society Education Committee; Chair of undergraduate research
award sub-committee (2001-present).
Co-Chair, Symposium on Non-Linear and Ultra-fast Laser
Interactions with Materials, American Physical Society, March, 2002.
Chair, Topical Session on
Polymers, SPIE International Symposium on High-Power Laser Ablation, Taos,
April, 2002.
Vice-Chair,
Gordon Conference on Laser-Surface Interactions, July, 2002.
Chair,
Gordon Conference on Laser-Surface Interactions, July, 2004.
Vice-Chair,
Gordon Conference on Tribology, August, 2004.
Member, Organizing Committee, SPIE Symposium: Laser Applications in Microelectronic and
Optoelectronic Manufacturing VIII, January, 2003, 2004.
Reviewer, NSF National
Nanotechnology Infrastructure Network (NNIN) Program, 2003.
Member, Organizing Committee,
International Conference on Photo-Excited Processes and Applications, Sept. 2004,
Leece, Italy.
Member, Organizing Committee, Conference on Laser
Ablation (COLA VIII), Banff, Canada, September, 2005.
Chair,
Gordon Conference on Tribology, 2006.
Member,
Advisory Committee, Center for Nanophase Materials Sciences, ORNL,
2006-presesnt.
Member,
DOE Workshop on Materials under Extreme Conditions; Lead Section on Laser
materials Interactions, June, 2007.
Member, Organizing Committee, Conference on Laser
Ablation (COLA IX), Tenerife, September, 2007.
Co-Chair, Topical
symposium on Non-Linear and Ultra-fast Laser Interactions with Materials at the
American Physical Society March Meeting in New Orleans, March, 2008.
Co-Chair, Topical
symposium entitled Non-Linear and Ultra-fast Laser Interactions with Materials
at the American Physical Society March Meeting in Pittsburgh, March, 2009.
Chair of Tutorial Committee,
Conference on
Laser Ablation (COLA X), Singapore, September, 2009.
Co-Director: Isola di San Servolo Venezia
– Italy, 2nd International
School on Laser-surface interactions for
new materials production: tailoring structure and properties, July, 2010.
Co-Organizer:
Conference on Laser Ablation 2011, Playa del Carmen, Mexico, November,
2011
Co-Organizer:
OSA Sessions: Light-Matter
Interactions and Materials Processing 2012, 2013
Co-Organizer SPIE Conference: Laser Applications in Microelectronic and
Optoelectronic Manufacturing, January, 2012, 2013, 2014
Co-Organizer SPIE Conference: Synthesis and Photonics
of Nanoscale Material, January, 2012, 2013
Organizing Committee,
Isola di San Servolo Venezia – Italy, 2nd International School on Laser-surface interactions for new materials
production: tailoring structure and properties, July, 2012.
Organizing Committee, International Conference on
Laser Ablation (COLA), 2013.
Organizing Committee, International Conference on
Photo‐Excited
Processes and Applications,
October, 2014.
RESEARCH
ACTIVITY AND FUNDING:
Dr. Dickinson's
research has been in the general areas of materials physics, materials
chemistry, surface science, and physics education.
Recent research has
focused on:
a)
laser
modification of surfaces, laser-ablation and laser induced desorption
mechanisms in polymers and ceramics, single crystal inorganics;
b)
understanding of
tribochemistry in relation to nanoscale wear in solutions and using tribology
to control and manipulate recrystallization from solutions; mechanisms of wear
and nanometer surface modification.
c) use of photoemission to understand defect production at
surfaces due to radiation, mechanical stimulation.
d) transient
current measurements due to contact (tribo-currents) and fracto-emission (the
emission of particles during fracture and tribological loading of materials)
from crystalline materials, ceramics, polymers, and composites.
e) development of Computer based computer tutoring and
testing of calculus level beginning physics students.
f) development of e-Learning tools and courseware for a WSU two
semester upper division physics course (Electrodynamics) taught in a hybrid
format.
Funding for this work has averaged $200K-$400K/year
for ~32 years from sources including:
NSF, DOE-BES, DOE-EMSP, ONR, AFOSR, NASA, NATO, NIH, Boeing, McDonnell
Douglas, Goodyear, Dow,
INVITED
TALKS:
Presented over 360 invited talks at national and
international meetings, government and industrial laboratories, and
universities in the U.S. Japan, and
RECENT INVITED TALKS:
“Photonic Defect Generation
in Wide Bandgap Single Crystals: The
Road to Ruin,” Chemistry Department, WSU, January, 2005
“Nanotribology—Rubbing
on a Small Scale,” Chemistry and Chemical Engineering, Pennsylvania State
University, February, 2005.
“There’s the Rub: Tribochemistry at the nanometer size scale,”
11th International Conference on Fracture,” Turin, Italy, March, 2005.
“Tribochemical
Studies at the Nanometer Scale:
synergisms of mechanical and chemical forces,“ Plenary Speaker,
International Nanotribology Workshop, Porquerolles,
France, June, 2005.
“Tribochemical
studies at the nanometer scale:
synergisms of mechanical and chemical forces,” Goldschmidt Conference,
Moscow, ID, June, 2005
“Single Asperity atomic force
microscope studies of the Chemical Mechanical Planarization of silicate
glasses”, World Tribology Conference, Washington DC, September, 2005.
Invited Lecturer- NATO ADVANCED SCHOOL (
“The WSU On line Quizzing and
Tutoring System,” WSU Colloquium, October, 2005.
"Fundamental studies in
Tribochemistry using Atomic Force Microscopy," 2006 International CMP-MIC Conference,
Fremont, CA, March, 2006
"Synergisms between
mechanical and chemical stimulation of surfaces at the Nanometer Size
Scale,", March Meeting of the American Physical Society, March, 2006
"Atomic Scale
Tribochemistry," International Conference on Frontiers in Boundary
Lubricating Films, Lyon, France, May 2006
"New Directions in UV
Laser Interactions with Materials," DOE Workshop on Applications of Lasers
to Energy Problems, May, 2006
"Fundamental issues of
sub-threshold material removal by laser irradiation", SPIE International
Conference on High-Power Laser Ablation, Taos New Mexico, May, 2006
"Synergisms between
mechanical and chemical stimulation of surfaces at the Nanometer Size
Scale," Los Alamos National Laboratory, May, 2006
“Material removal by laser
irradiation from insulating materials,” International Conference on
Photo-Excited Processes and Applications, U. Virginia, Charlottsville,
Virginia, September 2006
“Fast lasers and short
wavelengths: implications for laser
processing of materials,” The International Conference on Advanced Laser
Technologies, Brasov, Romania, Sept. 2006.
“The One-Two Punch: Synergisms arising from combined mechanical and
chemical stimuli at the nanometer size scale,” 5th European Science Foundation
Invited Workshop on Nanotribology, Antalya, Turkey, Sept. 2006.
“Experiments with ultrashort
pulses at ultrashort wavelengths,” Paul Scherrer Institut, Villingen,
Switzerland, Sept. 2006
"Synergisms between
mechanical and chemical stimulation of surfaces at the Nanometer Size
Scale," Dept. of Materials Science, University of Tennessee, October, 2006
“Advances in laser desorption
from wide bandgap materials,” Materials Science Division, Oak Ridge National Laboratory, October, 2006.
“The One-Two Punch: Synergisms arising from combined mechanical and chemical
stimuli at the nanometer size scale,”
Keynote Address in New Breakthroughs in Nanotechnology Series, Oak Ridge
National Laboratory, October, 2006.
“The One-Two Punch: Synergisms arising from combined mechanical and
chemical stimuli at the nanometer size scale,”
Chemical Engineering Dept., Washington State University, October. 2006.
Synergisms
arising from combined mechanical and chemical stimuli at the nanometer size
scale,” Chemical Engineering Dept., ASTM
International Annual Meeting, Orlando, FL, December, 2006.
“Fast lasers and short wavelengths: implications for laser processing of
materials,” University of Michigan, Dept. of Materials Science, December, 2006.
“Synergisms arising from combined radiative and chemical stimuli at the
nanometer size scale,” The William L. Williams Distinguished Lecture in
Physics, University of Michigan, December, 2006.
“The One-Two Punch:
Consequences of Combining Stimuli to Materials – Mechanical and
Chemical,” Dept. of Physics, University of Michigan, December, 2006.
“The WSU Online Question and
Tutoring System (WSU Q&T): A tool
for teaching Science and Mathematics,” School of LS&A, University of
Michigan, December, 2006.
“The
One-Two Punch: Consequences of Combining
Mechanical and Chemical Stimuli to Materials” School of Mechanical and
Materials Engineering, Washington State University, January, 2007.
“Laser Interactions with Wide
Bandgap Materials,” WSU Dept. of Physics and Astronomy, January, 2007.
“Consequences of Combining Stimuli to
Materials – Mechanical and Chemical: How
does one polish single crystal Si?,” Chemical Sciences, ORNL, March, 2007
“Synergisms
arising from combined mechanical and chemical stimuli at the nanometer size
scale,” Nanotechnology Center, Vanderbilt Unversity, March, 2007.
“Fast lasers and short wavelengths: implications for laser processing of
materials,” University of Michigan, Dept. of Physics, Vanderbilt University,
March, 2007.
"Synergisms between
mechanical and chemical stimulation of surfaces at the Nanometer Size
Scale,", Spring Meeting of the Materials Research Society, San Francisco,
CA, April, 2007.
New studies of
Nano-Tribo-Chemical modification of surfaces,” 6th European
Science Foundation Invited Workshop on Nanotribology, Santa Margherita di Pula,
Sardinia, Italy, May, 2007.
“Laser induced Particle
Emission from Wide bandgap Materials”, Dept. Physics, University of Idaho,
October, 2007
“A New Look at Laser
Interactions with Wide Bandgap Materials,” SPIE-International Society for
Optical Engineering Photonics West, San Jose, CA January, 2008
"Kissing
surfaces with hard UV photons: the
consequences of photo-dissociation of near-surface molecular bonds in solids," 3rd
Pacific International Conference on Applications of Lasers and Optics, Beijing,
China, April, 2008
"Laser desorption at the threshold for
plasma formation" SPIE- International Society for
Optical Engineering High-Power Laser
Ablation Conference, VII, Taos, NM, April 2008.
“Laser
modification of surfaces,” Department of Energy Workshop on High Sensitivity
Methods of Materials Analysis, Annapolis, Maryland, May, 2008.
“Vacuum UV laser interactions
with wide bandgap materials,” Pacific Northwest National Laboratory, July,
2008.
The One Two Punch: Lasers + chemical stimulation of surfaces," Workshop on Extreme Excitation Processing of in
Materials U. Nebraska, August, 2008
“Curiosity
– the key to discovery”, Plenary Speaker to College of Pharmacy “Exploring
Health Careers” (~40 minority student work shop). August, 2008
“The use of
nanometer scale stresses to modify surfaces”, WSU Physics Colloquium,
September, 2008.
"Fundamental issues
concerning material removal by laser irradiation from insulating
materials", the opening keynote address at the 6th International
Conference on Photo-Excited Processes and Applications (ICPEPA 2008), Sapporo,
Japan, September 2008.
"Lasers as directed energy
sources: capabilities and applications
in agriculture", Biological Systems Engineering Colloquium, WSU, October, 2008.
“How
Lasers can modify materials in useful ways,”
Workshop on Industrial Applications of Lasers, ESI Corporation, Portland
Oregon, November, 2008.
“Incoming! Incoming!
(Laser Beam): Fundamentals of Laser
Materials Interactions,” WSU Physics Colloquium, September, 2009
"Fundamental studies of UV laser interactions with
single crystal ZnO, 10th International Conference
on Laser Ablation, Singapore, November, 2009.
"Investigation of laser surface modification of
solids: Mechanisms, Opening Tutorial
Lecture at the 10th
International Conference on Laser Ablation, Singapore, November, 2009.
“A new look a the production of excited states
created by laser irradiation of surfaces,”, Workshop on Extreme Excitation
Processing of in Materials U. Nebraska, March, 2010
"Laser desorption below the threshold for
plasma formation" International Society for Optical Engineering High-Power Laser Ablation Conference, VIII, Taos, NM,
April 2010.
“Laser
modification of surfaces,” Department of Energy Workshop on High Sensitivity
Methods of Materials Analysis, Baltimore, Maryland, May, 2010.
“Important issues in laser materials interactions and
relevant applications,” 3 Lectures at the Venice School on Laser Interactions
with Materials, July 2010.
"The Enormous Little World of
Nanotechnology", Plenary Speaker at Nanotechnology for Tomorrow, at
U. Wisconsin-Whitewater, October, 2010.
"The Enormous Little World of
Nanotechnology", Washington State University-Tri-Cities, November,
2010.
"Laser interactions with single crystal ZnO,
Pacific Northwest National Laboratory, November, 2010.
"Fundamental Studies of Excimer laser
interactions with single crystal ZnO, SPIE-LASE 2011, San Francisco, January
2011.
"Fundamental Studies of Excimer laser
interactions with single crystal ZnO, U. Idaho Physics Department, February,
2011.
"The Enormous Little World of
Nanotechnology", Washington State University-Vancouver, Jan., 2012.
"Fundamental Studies of Excimer laser
interactions with single crystal ZnO", International Conference on
Photo-Excited Processes and Applications (ICEPA-8), Rochester, NY, August,
2012.
“The one two punch: examples of synergisms at surface
of solids”, DARPA Workshop on Novel Methods of Processing Materials,
Breckenridge, CO, January, 2013.
CONTRIBUTED
PRESENTATIONS:
Over 420 contributed papers
presented, including 2-5 talks a year each at
PUBLICATIONS: (All are peer reviewed except those marked
with *)
1. J. C. Zorn, T. C. English, J. T. Dickinson, and D. A.
Stephenson, "Molecular Beam Measurement of the Hyperfine Structure of
RbF," J. Chem. Phys. 45, 3731 (1966).
2. J. C. Zorn, D. A. Stephenson, J. T. Dickinson, and T. C.
English, "Triple Resonance Method for Molecular hfs Spectroscopy: Measurements in CsF," J. Chem. Phys. 47,
3904 (1967).
3. R. H. Hammerle, J. T. Dickinson, R. G. VanAusdal, D. A.
Stephenson, and J. C. Zorn, "The Hyperfine Structure of Thallium
Chloride," J. Chem. Phys. 50, 2086 (1969).
4. J. T. Dickinson, D. A. Stephenson, and J. C. Zorn,
"Hyperfine Structure of Thallium Chloride," J. Chem. Phys. 50,
2086 (1969).
5. D. A. Stephenson, J. T. Dickinson, and J. C. Zorn,
"The Hyperfine Structure of Thallium Iodide and an Upper Limit for the
Electric Hexadecapole Moment of the Iodine Nucleus," J. Chem. Phys. 53,
1529 (1970).
6. J. T. Dickinson, James M. J. M. Lockhart, and J. C. Zorn,
"Use of a Metastable Atom Probe for the Study of Electron Dynamics,"
Am. J. Phys. 39, 993 (1971).
7. J. T. Dickinson, "The Falling Meter Stick,"
Physics Teacher 9, 336 (1971).
8. J. T. Dickinson, "Rolling Spool Experiment,"
Physics Teacher 10, 210 (1972).
9. J. T. Dickinson, "'Millergrams' in the Lab,"
Physics Teacher 10, 39 (1972).
10. J. T. Dickinson, "Experiments in Physics
201-202,"
11. J. H. Craig, Jr. and J. T. Dickinson, "Versatile
System for the Study of Molecular Beam Scattering," J. Vac. Sci. Technol. 10,
403 (1973).
12. J. H. Craig, Jr. and J. T. Dickinson, "Scattering of
Metastable Molecules from a Gas-Covered (100) Surface of Germanium," J.
Vac. Sci. Technol. 10, 319 (1973).
13. J. T. Dickinson, "Voltage Follower for RC Circuit
Experiment," Am. J. Phys. 41, 745 (1973).
14. J. T. Dickinson, "Transportation and Energy
Conservation in the Pacific Northwest,"
*15. L. W. Swanson, J. T. Dickinson, and D. R. McNeely,
"Fabrication and Surface Characterization of Composite Refractory
Compounds Suitable for Thermionic Converters," NASA Report No. CR-2668
(1975).
*16. J. T. Dickinson, "Energy Conservation in
Transportation," Proceedings of WSU Thermal Power Conference (1975).
17. L. W. Swanson and J. T. Dickinson, "Single
*18. L. W. Swanson,
19. J. T. Dickinson, "Liquid Nitrogen in a Balloon,"
Physics Teacher 15, 361 (1977).
20. J. T. Dickinson and R. J. Madix, "The Mechanism of
Methanol Formation and Other Reactions Following Formaldehyde Adsorption on
Ni(110), Internat, J. Chem. Kinetics 10, 871 (1978).
21. J. T. Dickinson, H. Poppa, and G. M. Pound,
"Chemisorption of CO on Well-Characterized Supported Pd Particles, J. Vac.
Sci. Tech. 15, 568 (1978).
22. L. R. Danielson, M. J. Dresser, E. E. Donaldson, and J. T.
Dickinson, "Adsorption and Desorption of Ammonia, Hydrogen, and Nitrogen
on Ruthenium (0001), Surf. Sci. 71, 599 (1978).
23. J. T. Dickinson, P. Braunlich, L. Larson, and A. Marceau,
"Characteristic Emission of Negatively Charged Particles During Tensile
Deformation of Oxide-Covered Aluminum Alloys," Appl. Surf. Sci. 1,
515-537 (1978).
24. J. T. Dickinson, "Comments on Physics and Society at
25. L. Larson and J. T. Dickinson, "The Decomposition of
Formic Acid on Ru(1010)," Surf. Sci. 84, 17 (1979).
26. L. A. Larson, J. T. Dickinson, P. Braunlich, and D. Snyder,
"The Emission of Neutral Particles from Anodized Aluminum Surfaces During
Tensile Deformation," J. Vac. Sci. and Tech. 16, 590 (1979).
27. D. L. Doering, T. Oda, J. T. Dickinson, and P. Braunlich,
"Characterization of Anodic Oxide Coatings on Aluminum by Tribostimulated
Exoemission," Appl. Surf. Sci. 3, 196 (1979).
28. L. A. Larson, P.
Braunlich, and J. T. Dickinson, "On the Surface Compositions and
*29. J. T. Dickinson and P. Braunlich, "Tribostimulated
Emission of Electrons and Neutral Particles from Anodized Aluminum,"
Proceedings of the ARPA/AFOSR Conference on NDA,
30. J. T. Dickinson, D. B. Snyder, and E. E. Donaldson,
"Acoustic Emission and Electron Emission During Deformation of Anodized
Aluminum," J. Vac. Sci. Tech. 17, 429 (1980).
31. D. L. Doering, H. Poppa, and J. T. Dickinson, "Changes
Induced on the Surfaces of Small Pd Clusters by the Thermal Desorption of
CO," J. Vac. Sci. Tech. 17, 198 (1980).
32. J. T. Dickinson and P. Braunlich, "Exoemission During
Oxide Coating Fracture," Proceedings of the International Symposium on
Exoemission and Applications,
33. P. Braunlich and J. T. Dickinson, "Thermostimulated
Processes at Surfaces of Solids," Proceedings of the VI International
Symposium on Exoemission and Applications,
34. J. T. Dickinson, D. B. Snyder, and E. E. Donaldson,
"Electron and Acoustic Emission Accompanying Oxide Coating Fracture,"
Thin Solid films 72, 223 (1980).
35. D. L. Doering, H. Poppa, and J. T. Dickinson, "The
Effect of Particle Size on the Chemisorption and Disproportionation of CO on Pd
and Ni Clusters," J. Vac. Sci. Tech. 18, 238 (1981).
36. J. T. Dickinson, E. E. Donaldson, and D. B. Snyder,
"Emission of Electrons and Positive Ions Upon Fracture of Oxide Films,"
J. Vac. Sci. Tech. 18, 460 (1981).
37. J. T. Dickinson, E. E. Donaldson, and M. K. Park, "The
Emission of Electrons and Positive Ions from Fracture of Materials," J.
Mater. Sci. 16, 2897 (1981).
38. D. L. Doering, J. T. Dickinson, and H. Poppa, "UHV
Studies of the Interaction of CO with Small Supported Metal Particles I: Ni/Mica," J. Catalysis 73, 91
(1982).
39. D. L. Doering, J. T. Dickinson, and H. Poppa, "UHV
Studies of the Interaction of CO with Small Supported Metal Particles II: Pd/Mica," J. Catalysis 73, 104
(1982).
40. J. T. Dickinson, M. K. Park, E. E. Donaldson, and L. C.
Jensen, "Fracto-Emission Accompanying Adhesive Failure," J. Vac. Sci.
Technol. 20, 436 (1982).
*41. J. T. Dickinson, "Fracto-Emission from Composites,"
Proceedings of a Critical Review:
Characterization of Composites, M.I.T.,
42. D. L. Doering, H. Poppa, and J. T. Dickinson,
"Chemisorption of CO on Particulate Deposits of Pd," J. Vac. Sci. and
Tech. 20, 827 (1982).
43. J. T. Dickinson and L. C. Jensen, "Crack Velocity
Dependence of Electron Emission During Fracture in Filled Elastomers," J.
Polymer Sci., Polymer Phys. Ed. 20, 1925 (1982).
44. J. T. Dickinson, L. C. Jensen, and M. K. Park, "Time
Correlations of Electron and Positive Ion Emission Accompanying and Following
Fracture of a Filled Elastomer," Appl. Phys. Lett. 41, 443 (1982).
45. J. T. Dickinson, L. C. Jensen, and M. K. Park,
"Time-of-Flight Measurements of the Mass-to-Charge Ratio of Positive Ion
Emission Accompanying Fracture," J. Mater. Sci. 17, 3173 (1982).
46. M. H. Miles and J. T. Dickinson, "Fracto-Emission from
PETN and HMX Single Crystals," Appl. Phys. Lett. 41, 924 (1982).
47. J. T. Dickinson, L. C. Jensen, and M. K. Park,
"Mass-to-Charge Ratio and Kinetic Energy of Positive Ion Emission
Accompanying Fracture of a Filled Elastomer," Appl. Phys. Letts. 41,
827 (1982).
48. J. T. Dickinson and L. C. Jensen, "Correlations in
Time of Electron and Positive Ion Emission Accompanying Fracture," J. Vac.
Sci. Technol. A1, 1160 (1983).
49. J. T. Dickinson, L. C. Jensen, and A. Jahan-Latibari,
"Fracto-Emission from Filled and Unfilled Elastomers," (Review
Article), Rubber Chem. and Tech. 56, 927 (1984).
50. J. T. Dickinson, L. C. Jensen, and A. Jahan-Latibari,
"Fracto-Emission: The Role of
Charge Separation," J. Vac. Sci. Technol. A2, 1112 (1984).
51. J. T. Dickinson, L. B. Brix, and L. C. Jensen,
"Electron and Positive Ion Emission Accompanying Fracture of Wint-O-Green
Lifesavers and Single Crystal Sucrose," J. Phys. Chem. 88, 1698
(1984).
52. M. Loudiana, A. Schmid, and J. T. Dickinson,
"Degradation of Dielectric Films By XeF Excimer Intermediates,"
Proceedings of Symposium on Laser Induced Damage in Optical Materials, NBS
Publications, (1984).
53. J. T. Dickinson, L. C. Jensen, and A. Jahan-Latibari,
"The Effect of Cross-Linking on Fracto-Emission from Elastomers," J.
Mat Sci. 19, 1510 (1984).
54. J. T. Dickinson, Response to: "On the Question of Emission of Charged
Particles in the Case of Failure of Solids," Mater. Sci. Lett. 19,
2426 (1984).
55. J. T. Dickinson, M. H. Miles, W. L. Elban, and R. G.
Rosemeier, "Fracto-Emission from RDX Single
56. J. T. Dickinson, Fracto-Emission Accompanying Adhesive
Failure," in Adhesive Chemistry--Developments and Trends, ed. by L. H. Lee
(Plenum Publishers,
57. M. L. Klakken, J. T. Dickinson, and L. C. Jensen,
"Electrical Breakdown Induced by Fracture," IEEE Transactions on
Electrical Insulation, EI-19, 578 (1984).
58. J. T. Dickinson, A. Jahan-Latibari, and L. C. Jensen,
"Fracto-Emission from Single Fibers of Kevlar-49," J. Mater. Sci. 20,
1835 (1985).
59. J. T. Dickinson, A. Jahan-Latibari, and L. C. Jensen,
"Electron Emission and Acoustic Emission from the Fracture of
Graphite/Epoxy Composites," J. Mater. Sci. 20, 229 (1985).
60. J. T. Dickinson, L. C. Jensen, and
61. M. A. Loudiana, A. S. Schmid, J. T. Dickinson, and E. J.
Ashley, "The Role of Adsorbed Fluorine in the Chemical Sputtering of
Silica," Surf. Sci. 141, 409 (1984).
62. J. T. Dickinson, W. D. Williams, and L. C. Jensen,
"Fracto-Emission from Lead Zirconate-Titanate," J. Am. Ceram. Soc., 68
235 (1985).
63. J. T. Dickinson, X. A. Shen, and L. C. Jensen,
"Peeling of Pressure Sensitive Adhesives," Proceedings of the 30th
National SAMPE Symposium, 1985.
64. E. E. Donaldson, X. A. Shen, and J. T. Dickinson,
"Photon and Radiowave Emission from Peeling Pressure Sensitive Adhesives
in Air," Proceedings of the 30th National SAMPE Symposium, 1985.
65. M. H. Miles, J. T. Dickinson, and L. C. Jensen,
"Fracto-Emission from Single
66. J. T. Dickinson, A. Jahan-Latibari, and L. C. Jensen,
"Fracto-Emission from Fiber-Reinforced and Particulate Filled
Composites," in Polymer Composites and Interfaces, ed. by N. G. Kumar and
H. Ishida (Plenum Publishers, New York), Review Article, 1985.
67. M. A. Loudiana, J. T. Dickinson, and E. J. Ashley,
"Electron-Induced Damage of ThF4 Thin Films in the Presence of
XeF2, J. Vac. Sci. Technol. A3, 647 (1985).
68. W. Durrer, H. Poppa, and J. T. Dickinson,
"Decomposition of Ethylene on Small Pd Particles," J. Vac. Sci.
Technol. A3, 1545 (1985).
69. J. T. Dickinson and L. C. Jensen, "Fracto-Emission
from Filled and Unfilled Polybutadiene," J. Poly. Sci.: Poly. Phys.
Edition 23, 873 (1985).
70. M. A. Loudiana, J. Bye, J. T. Dickinson, and D. A.
Dickinson, "Chemisorptive Emission from Fluorine Adsorption on
Tungsten," Surf. Sci. 157, 459 (1985).
71. J. T. Dickinson, M. J. Dresser, and L. C. Jensen,
"Time Correlation of Ion and Electron Emission from Surfaces Following
Fracture," in Desorption Induced by Electronic Transitions (DIET II), W.
Brenig and D. Menzel, ed., Springer-Verlag,
72. L. A. K'Singam, J. T. Dickinson, and L. C. Jensen,
"Electron and Photon Emission Accompanying Failure of Metal/Glass
Interfaces," J. Am. Ceramics Soc. 68, 510 (1985).
73. J. T. Dickinson, M. L. Klakken, M. H. Miles, and L. C.
Jensen, "Electron Beam Induced Fracture of Polymers," J. Poly. Sci.:
Poly. Phys. Ed. 23, 873 (1985).
74. Ch. Park, W. G. Durrer, H. Poppa, and J. T. Dickinson,
"CO Desorption from Supported Ru Particles," J. Catalysis 95,
361 (1985).
75. M. A. Loudiana and J. T. Dickinson, "Simultaneous
Exposure of SiO2 and ThF4 to XeF2 and
Energetic Electrons," J. Vac. Sci. Technol. B3, 1393 (1985).
76. E. E. Donaldson, J. T. Dickinson, and X. A. Shen,
"Time and Size Correlations of Photon and Radiowave Bursts from Peeling
Pressure Sensitive Adhesives in Air," J. Adhesion 19, 267 (1986).
77. J. T. Dickinson, L. C. Jensen, and M. R. McKay, and F.
Freund, "Emission of Atoms and Molecules Due To Fracture of Single Crystal
MgO," J. Vac. Sci. Technol. A 4, 1648 (1986).
78. J. T. Dickinson, L. C. Jensen, and M. L. Klakken,
"Electron Beam Induced Fracture of Kevlar Single Fibers," J. Vac.
Sci. Technol. A 4, 1501 (1986).
*79. E. E. Donaldson and J. T. Dickinson, "Autographs of
Adhesive Failure: Direct Recording of Photon Emission on Photographic
Film," Proceedings of the 31st International Symposium, SAMPE (1986).
80. J. T. Dickinson, L. C. Jensen, and M. R. McKay,
"Neutral Molecule Emission from the Fracture of Crystalline MgO," J.
Vac. Sci. Technol. A, 5, 1162 (1987).
81. J. T. Dickinson, K. Tonyali, M. L. Klakken, and L. C.
Jensen, "Crack Initiation and Crack Growth in Polymers Induced by Electron
Bombardment," J. Vac. Sci. Technol. A, 5, 1076 (1987).
*82. J. T. Dickinson, M. L. Klakken, and L. C. Jensen,
"Bombardment Induced Crack Initiation and Crack Growth in Polymers,"
Proceedings of the 18th International Technical Conference, SAMPE, October,
1986, pp 983-992.
*83. J. T. Dickinson, L. C. Jensen, and W. D. Williams,
"Fracto-Emission Accompanying the Deformation and Failure of Composites
and Adhesive Joints," Proceedings of the 18th International Technical
Conference, SAMPE, October, 1986, pp 390-400.
84. A. S. Crasto, R. Corey, J. T. Dickinson, R. V. Subramanian,
and Y. Eckstein, "Correlation of Photon and Acoustic Emission with Failure
Events in Model Composites," Composites Sci. & Technol., 30, 35
(1987).
85. R. Michael, S. Frank, D. Stulik, and J. T. Dickinson,
"Changes in Surface Morphology and Microcrack Initiation in Polymers under
Simultaneous Exposure to Stress and Fast Atom Bombardment," in Influence of Radiation on Material
Properties Part II, ASTM Special Technical Publication STP 956, F. A.
Garner, C. H. Henager, and N. Igata, editors, (American Society for Testing and
Materials, Philadelphia, 1987), pp. 682-687.
86. J. T. Dickinson, L. C. Jensen, and
87. M. A. Loudiana, J. T. Dickinson, A. Schmid, and E. J.
Ashley, "Electron Enhanced Sorption of Fluorine by Silver Surfaces,"
Appl. Surf. Sci. 28 311 (1987).
88. S. C. Langford, J. T. Dickinson, and L. C. Jensen,
"Simultaneous Measurements of the Electron and Photon Emission
Accompanying Fracture of Single Crystal MgO," J. Appl. Phys. 62,
1437 (1987).
89. J. T. Dickinson and L. C. Jensen, "Fracto-Emission
from Polymers,
90. M. Guardalben, A. Schmid, M. Loudiana, and J. T. Dickinson,
"Photothermal Analysis of Synergistic Radiation Effects in ThF4
Optical Thin Films," Phys. Rev. B, 35 4026 (1987).
91. J. T. Dickinson and E. E. Donaldson, "Autographs from
Peeling Pressure Sensitive Adhesives:
Direct Recording of Fracture Induced Photon Emission," J. Adhesion,
24, 199 (1987).
*92. J. T. Dickinson and M. A. Loudiana, "Radiation Induced
Damage of Optical Coatings,” Proceedings of the
*93. J. T. Dickinson, "Fracto-Emission Accompanying the
Deformation and Failure of Crosslinked Polymers and Interfaces,” Proceedings of
the
*94. J. T. Dickinson, "Bombardment Induced Crack Initiation
and Crack Growth in Polymers and Polymer Surfaces,” Proceedings of the
95. J. T. Dickinson, L. C. Jensen, M. H. Miles, and R. Yee,
"Fracto-Emission Accompanying Adhesive Failure Between Rocket Propellent
Constituents," J. Appl. Phys. 62, 2965 (1987).
96. J. T. Dickinson, "Surface Interactions Relevant to
Space Station Contamination Problems," in A Study of Space Station Contamination Effects, M. R. Torr, et al.
editors, NASA Conference Publication
3002, (National Aeronautics and Space Agency, 1988), pp. 109-121.
97. Ma Zhenyi, Fan Jiawen, and J. T. Dickinson,
"Properties of the Photon Emission Accompanying the Peeling of a Pressure
Sensitive Adhesive," J. Adhesion 25, 63 (1988).
98. E. E. Donaldson, J. T. Dickinson, and S. K. Bhattacharya,
"Production and Properties of Ejecta Produced by Fracture of Materials,”
J. Adhesion 25 281 (1988).
99. S. C. Langford, D. L. Doering, and J. T. Dickinson,
"The Production of Free Charge Carriers by Fracture of Single Crystal
Silicon,” Phys. Rev. Lett. 59, 2795 (1987).
100. K. Tonyali, L. C. Jensen, and J. T. Dickinson, "The
Interaction of Excimer Laser Ultraviolet Radiation with Kapton-H Under
Mechanical Stress," J. Vac. Sci. Technol. A 6, 941 (1988).
101. J. T. Dickinson, S. C. Langford, L. C. Jensen, J. Kelso, C.
Pantano, and G. McVay, "Fracto-Emission from Fused Silica and Sodium
Silicate Glasses," J. Vac. Sci. and Technol. A 6, 1084 (1988).
102. K. C. Yoo, R. G. Rosemier, J. T. Dickinson, and S. C.
Langford, "Anisotropy Effects in Fracto-Emission from MgF2
Single Crystals,” Appl. Phys. Lett. 55, 354 (1989).
103. J. P. Mathison, S. C. Langford, and J. T. Dickinson,
"Concerning the Post Emission of Electrons from Cleavage Surfaces of
Single Crystal LiF," J. Appl. Phys. 65 1923 (1989).
104. S. C. Langford, J. T. Dickinson, and L. C. Jensen and L. R.
Pederson, "Positive Ion Emission from the Fracture of Fused Silica,"
J. Vac. Sci. Technol. A. 7, 1829 (1989).
105. E. E. Donaldson, M. H. Miles, and J. T. Dickinson,
"Electrical Charge Measurements on Ejecta from Impact Loading of Explosive
106. P. A. Eschbach, J. T. Dickinson, S. C. Langford, and L. R.
Pederson, "The Interaction of UV Excimer Laser Light with Sodium
Trisilicate, " J. Vac. Sci. Technol. A 7, 2943 (1989).
107. E. E. Donaldson and J. T. Dickinson, "Autographs from
Peeling Fiber Reinforced Pressure Sensitive Adhesives: Correlation with Failure Mechanisms,"J.
Adhesion 30, 13 (1989).
108. J. T. Dickinson, P. A. Eschbach, and L. R. Pederson,
"Characterization of Emitted Particles from Excimer Laser Bombardment of
Glass," Materials Research Society Symposium Proceedings 129, Laser and Particle-Beam Chemical Processes
on Surfaces, A. W. Johnson, G. L. Loper, and T. W. Sigmon, ed., pp. 385-392
(1989).
109. J. T. Dickinson and A. S. Crasto, "Fracto-Emission
Accompanying the Deformation and Failure of Crosslinked Polymers and
Interfaces,” in Cross-linked Polymers:
Chemistry, Properties and Applications, R. A. Dickie, S. S. Labana, and R.
S. Bauer, editors, ACS Symposium Series 367 (American Chemical Society,
Washington, D.C. 1988), pp. 145-168.
110. J. T. Dickinson, M. A. Loudiana, and A. Schmid,
"Consequences of Exposure of Optical Coatings to Reactive Gases and
Energetic Particles," (Review Article) in Adhesion, Sealants and Coatings for Space and Health Environments,
L. H. Lee, ed., Plenum Press, New
York, 1988, pp. 467-475.
*111. J. T. Dickinson and L. C. Jensen, "Fracto-Emission from
Polymers, Interfaces, and Single
112 J. T. Dickinson, D. L. Doering, and S. C. Langford,
"Electron Emission and Free Charge Carrier Production Due to Fracture of
Single Crystal Silicon," in Atomic
and Molecular Processing of Electronic and Ceramic Materials: Preparation,
Characterization, and Properties,
113. K. Tonyali, L. C. Jensen, and J. T. Dickinson, "Excimer
Laser Induced Damage in Stressed Polyimide Films," MRS Symposium
Proceedings, Vol. 100: Fundamentals of Beam-Solid Interactions and
Transient Thermal Processing, M. J. Aziz, et. al. editors, (Materials
Research Society, Pittsburgh, 1988), pp. 665-670.
114. J. T. Dickinson, "Bombardment Induced Crack Initiation
and Crack Growth in Polymers and Polymer Surfaces," (Review Article) in Adhesion, Sealants and Coatings for Space
and Health Environments, L. H. Lee, editor, Plenum Press, New York, 1988,
pp. 97-109.
115. R. Y. Yee, J. T. Dickinson, L. C. Jensen, and M. H. Miles,
"Charge Emissions Accompanying Solid-Binder Interfacial Separation," Proceedings of the JANNAF Workshop on Rocket
Propellent Ignition, 1988.
116. J. T. Dickinson, "Photon Emission from Peeling Pressure
Sensitive Adhesives, SPIE Vol. 910 Fluorescence Detection II, R. Menzel,
ed., 1988, pp. 13-18.
117. J. T. Dickinson and L. C. Jensen, "Radiation Induced
Crack Initiation and Crack Growth in Polymers, " Proceedings of the 9th International Symposium on Exoelectron Emission
and Applications,"
118. W. G. Durrer, H. Poppa, and J. T. Dickinson, "The
Decomposition of Unsaturated Hydrocarbons on Small Pd Particles," J.
Catalysis 115, 310 (1989).
119. S. C. Langford and J. T. Dickinson, "The Emission of
Particles and Photons from the Fracture of Minerals and Inorganic
Materials," (invited review) in Spectroscopic
Characterization of Minerals and Their Surfaces, L. M. Coyne, S. W.
McKeever, and D. F. Blake eds., ACS Symposium Series Publication 415, pp.
224-244, (1990).
120. J. T. Dickinson, "Fracto-Emission from Adhesive
Failure," Invited Review, in Adhesive
Bonding, L. H. Lee, ed., (Plenum Press, New York, 1991), pp. 395-423.
121. S. C. Langford, Ma Zhenyi, and J. T. Dickinson, "Photon
Emission as a Probe of Chaotic Processes Accompanying Fracture,” J. Mater. Res.
4, 1272 (1989).
122. J. T. Dickinson, "Fracto-Emission from Interfacial
Failure,” (invited review paper) Materials Research Society Symposium
Proceedings 153, Interfaces
Between Polymers, Metals, and Ceramics, B. M. DeKoven, A. J. Gellman, and
R. Rosenberg eds., pp. 331-344, (1989).
123. J. T. Dickinson, L. C. Jensen, S. C. Langford, R. R. Ryan, and
E. Garcia, "Fracto-Emission from Deuterated Ti: Supporting Evidence for a Fracto-Fusion
Mechanism," J. Mater. Res. 5, 109 (1990).
124. D. L. Doering, S. C. Langford, J. T. Dickinson, and P.
Xiong-Skiba, "Fracto-Emission during the Interfacial Failure of a
Metal-Oxide-Semiconductor System: Au-SiO2-Si,"
J. Vac. Sci. Technol. A. 8, 2401 (1990).
125. E. E. Donaldson, J. T. Dickinson, and Naiqiang Wu,
"Fracto-Emission Induced Electrical Breakdown in Vacuum," Transactions
IEEE Elec. Insul. 25, 549 (1990).
126. S. C. Langford, L. C. Jensen, Ma Zhenyi, and J. T. Dickinson,
"Scanning Tunneling Microscopy Analysis of MgO Fracture Surfaces, J. Vac.
Sci. Technol. A 8, 3470 (1990).
127. J. T. Dickinson, L. C. Jensen, D. L. Doering, and R. Yee,
"Mass Spectroscopy Study of Products from Exposure of RDX Single
128. J. T. Dickinson, "Fracto-Emission,” (invited review),
Chap. 10 in Non-Destructive Testing of
Fibre-Reinforced Plastic Composites - II, J. Summerscales, ed. Elsevier Applied
Science, London (1990), pp. 429-482.
129. J. T. Dickinson, S. C. Langford, L. C. Jensen, P. A. Eschbach,
L. R. Pederson and D. R. Baer, "Consequences of Simultaneous Exposure of
Inorganic Solids to Excimer Laser Light and an Electron Beam," J. Appl.
Phys. 68, 1831 (1990).
130. P. A. Eschbach, J. T. Dickinson, S. C. Langford, L. C. Jensen,
L. R. Pederson and D. R. Baer, "Precursors to the Photo-Ablation of Sodium
Trisilicate Glass due to UV Excimer Irradiation,” Mater. Res. Soc. Symp. Proc.
158, (1990), pp. 463-469.
131. S. C. Langford, L. C. Jensen, J. T. Dickinson, and L. R.
Pederson, "Negative Charge Emission due to Excimer Laser Bombardment of
Sodium Trisilicate glass," J. Appl. Phys. 68, 4253 (1990).
132. Ma Zhenyi, S. C. Langford, and J. T. Dickinson, M. H.
Engelhard and D. R. Baer, "Fractal Character of Crack Propagation in Epoxy
and Epoxy Composites as Revealed by Photon Emission during Fracture," J.
Mater. Res. 6, 183 (1991).
133. J. T. Dickinson and Ma Zhenyi, "Fracto-Emission
Accompanying Adhesive Failure in A Model Fiber Pull-out System," Die
Makromoleculare Chemie, Macromolecular Symposia 41, 9 (1991).
134. J. T. Dickinson, L. C. Jensen, S. C. Langford, and J. P.
Hirth, "Atomic and Molecular Emission Following Fracture of Alkali
Halides: A Dislocation Driven
Process," J. Mater. Res. 6, 112 (1991).
135. S. C. Langford, L. C. Jensen, J. T. Dickinson, and L. R.
Pederson, "Alkali Emission Accompanying Fracture of Sodium Silicate
Glasses," J. Mater. Res. 6, 112 (1991).
136. J. T. Dickinson, S. C. Langford, L. C. Jensen, "Atomic
and Molecular Emission Accompanying Fracture of Single Crystal Ge: A Dislocation Driven Process," Phys.
Rev. Lett. 66, 2120 (1991).
137. Ma Zhen-Yi and J. T. Dickinson, "Fracto-Emission from
Embedded Interfaces," J. Appl. Phys. 70, 4797 (1991).
138. K. A. Zimmermann, S. C. Langford, and J. T. Dickinson,
"Electrical Transients during Interfacial Debonding and Pullout of a Metal
Rod from an Epoxy Matrix," J. Appl. Phys. 70, 4808 (1991).
139. J. T. Dickinson, L. C. Jensen, S. C. Langford, P. E.
Rosenberg, and D. L. Blanchard, "CO2 Emission Accompanying the
Fracture of Calcite," Phys. Chem. Minerals 18(5), 320-325 (1991).
140. Y. Watanabe, J. T. Dickinson, D. M. Kulawansa, and S. C.
Langford, “Observations of Fracture Surfaces in Metallic Glasses by SEM and
STM,” Memoirs of the
141. D. M. Kulawansa, S. C. Langford, and J. T. Dickinson,
“Scanning tunneling microscope observations of polymer fracture surfaces,” J.
Mat. Research, 7(5) 1292-1302 (1992).
142. J. T. Dickinson, L. C. Jensen, S. C. Langford, P. E.
Rosenberg, and D. L. Blanchard, "Fracture Induced Emission of Alkali Atoms
from Feldspar," Phys. Chem. Minerals 18(7), 453-459 (1992).
143. J. T. Dickinson, S. C. Langford, and L. C. Jensen,
"Dissipative Processes Accompanying Fracture" (review article) Fracture Mechanics of Ceramics, Vol. 10,
R. C. Bradt, D. P. H. Hasselman, D. Munz, M. Sakai, and V. Ya. Shevchenko,
Plenum Press (1992), pp. 1-32.
144. J. T. Dickinson, S. C. Langford, and L. C. Jensen,
"Simultaneous Bombardment of Wide Bandgap Materials with UV Excimer
Irradiation and keV Electrons," J. C. Miller and R. F. Haglund, Jr. eds., Laser Ablation: Mechanisms and Applications, Springer
Verlag (1991), pp. 301-310.
145. J. T. Dickinson, S. C. Langford, and L. C. Jensen, "The
Role of Defects in the Ablation of Wide Bandgap Materials," (review
article), SPIE Proc. 1598, Lasers in Microelectronic Manufacturing,
Bodil Braren, Ed., pp. 72-83 (1991).
146. R. L. Webb, S. C. Langford, L. C. Jensen, and J. T. Dickinson,
"Ablation of single crystal MgO by UV excimer laser radiation,” Mat. Res.
Soc. Symp. Proc. 236, 21 (1992).
147. R. L. Webb, L. C. Jensen, S. C. Langford, and J. T. Dickinson,
"Interactions of wide bandgap single crystals with 248 nm excimer laser
radiation: I. MgO,” J. Appl. Phys. 74, 2323-2337
(1993).
148. R. L. Webb, L. C. Jensen, S. C. Langford, and J. T. Dickinson,
"Interactions of wide bandgap single crystals with 248 nm excimer laser
radiation: II. NaCl,” J. Appl. Phys. 74, 2338-2346
(1993).
149. J. T. Dickinson, “Static Progress: Contact Electrification and Adhesion,” Physics World, July, 1992, pp. 25-26.
150. M. G.
Norton, Wenbiao Jiang, J. T.Dickinson, L. C. Jensen, S.C. Langford, E.L.
Fleischer, and J. W. Mayer, “Xenon emission accompanying fracture of
xenon-implanted cubic zirconia,” J. Am. Ceram. Soc. 76, 2076 (1993).
151. J. T.
Dickinson, L. C. Jensen, and R. P. Dion, “Fracto-Emission from High Density
Polyethylene: Bond Breaking vs
Tribological Stimulation,” J. Appl. Phys. 73, 3047 (1993).
152. J. T.
Dickinson, L. C. Jensen, S. C. Langford, R. P. Dion, and L. Nick, CO emission
accompanying fracture of polycarbonate:
evidence for molecular cleavage,” J. Mater. Research 8, 14
(1993).
153. D. M.
Kulawansa, J. T. Dickinson, and S. C. Langford, and Y. Watanabe, “Scanning
Tunneling Microscope Observations of Metallic Glass Fracture Surfaces,” J.
Mater. Research 8, 2543 (1993).
154. K. A.
Zimmerman, S. C. Langford, J. T. Dickinson, and R. P. Dion, “Electron and
photon emission accompanying deformation and fracture of polycarbonate,” J. Polym. Sci.: Part B: Polym. Physics Ed. 31,
1229 (1993).
155. J.
Fuhrmann, L. Nick, J. T. Dickinson, and L. C. Jensen, “Photon Emission during
deformation of glass-fiber reinforced bisphenol-A- Polycarbonate,” J. Appied
Polym. Sci. 48, 2123 (1993).
156. J. T.
Dickinson, L. C. Jensen, R. L. Webb, M. L. Dawes, and S. C. Langford ,
“Interactions of wide bandgap single crystals with 248 nm excimer laser
radiation: III. the role of cleavage-induced defects in MgO,”
J. Appl. Phys. 74 3758 (1993).
157. J. T.
Dickinson, L. C. Jensen, R. L. Webb, M. L. Dawes, and S. C. Langford,
“Mechanisms of excimer laser ablation of wide bandgap materials: the role of defects in single crystal MgO,”
MRS Symposium Proceedings 285, 131 (1993).
*158. J. T.
Dickinson, “Excitations produced during fracture of polymers and interfaces,”
Polym. Prepr. (Am. Chem. Soc, Div. Polym. Chem.) 34(2), 254 (1993).
159. J. T.
Dickinson, L. C. Jensen, and S. C. Langford, “Recombination on fractal networks: photon and electron emission following
fracture of materials,” J. Mater. Res. 8(11), 2921-2932 (1993).
160. J. T.
Dickinson, L. C. Jensen, S. C. Langford, and R. P. Dion, “Ar atom emission as a
probe of craze formation and craze growth in polystyrene,” J. Polym. Sci.:
Polym. Physics Ed. 31, 1441 (1993).
161. J. T.
Dickinson, Jaw-Jung Shin, W. Jiang, and M. G. Norton, “Neutral and ion
emissions accompanying pulsed excimer laser irradiation of
polytetrafluroethylene (PTFE),”J. Appl. Phys. 74, 4729 (1993).
*161. J. T.
Dickinson, “Time-resolved electrical transient measurements during failure
between polymer-metal interfaces,” Polym. Prepr. (Am. Chem. Soc, Div. Polym.
Chem.) 34(2), 272 (1993).
162. J. T.
Dickinson, L. C. Jensen, S. C. Langford, and R. P. Dion, “Emission of occluded
volatiles during elastic deformation of polycarbonate,” J. Polym. Sci.: Polym.
Physics Ed. 32, 993 (1994).
163. J. T.
Dickinson, L. C. Jensen, S. C. Langford, and R. P. Dion, “Temperature measurements of the gaseous
emission during the fracture of polystyrene:
a determination of the fracture energy and fracture surface
temperature,” J. Polym. Sci.: Polym. Phys. Ed. 32, 779-782 (1994).
164. Xiao-Dong
Wang, K. W. Hipps, J. T. Dickinson, and U. Mazur, “Amorphous or nanocrystalline
AlN thin films formed from AlN:H, J.
Mater. Sci. 9 1449-1455 (1994).
165. J. T.
Dickinson, L. C. Jensen, R. L. Webb, and S. C. Langford, “Laser ablation of
wide band-gap materials: The role of
defects in single crystal MgO,” in Proceedings
of the Second International Conference on Laser Ablation (COLA-II), AIP Conf. Proc. 288, edited by J. C.
Miller and D. B. Geohegan, pp. 13-25 (1994).
166. D. M.
Kulawansa, L. C. Jensen, S. C. Langford, and J. T. Dickinson, and Y. Watanabe,
“Scanning tunneling microscope observations of the mirror region of silicate
glass fracture surfaces,“ J. Mater. Res. 9, 476-485 (1994).
167. J. T.
Dickinson, L. C. Jensen, Sunkyo Lee, Louis Scudiero, and S. C. Langford,
(invited review article) “Fracto-emission and electrical transients due to
adhesive failure,” J. Adhes. Sci. Technol. 8(11), 1285-1309 (1994).
168. J. T.
Dickinson, “The role of defects in the laser ablation of wide bandgap
materials,” Nucl. Instrum. Methods Phys. Res. B91, 634-638 (1994).
169. J. T.
Dickinson, Jaw-Jung Shin, W. Jiang, and M. G. Norton, “Evidence for unzipping
reactions in the laser ablation of polytetrafluoroethylene (PTFE),” Nucl.
Instrum. Methods Phys. Res. B91, 672 (1994).
170. J. T.
Dickinson, L. C. Jensen, R. L. Webb, and S. C. Langford, “Laser ablation
studies relevant to thin film deposition,” ICAM-MRS Proceedings, Transactions
of the MRS of Japan, 17 283-288 (1994).
171. J. T. Dickinson, L. C. Jensen, R. L.
Webb, J-J. Shin, and S. C. Langford, “The
role of defects in the laser ablation of wide bandgap materials,” Proc. SPIE 2114, Laser-Induced Damage in Optical Materials:
1993, Harold E. Bennett, Lloyd L. Chase, Arthur H. Guenther, Brian E.
Newnam, and M. J. Soileau, Eds., pp. 116-126 (1994).
172. Yoshihisa
Watanabe, Yoshikazu Nakamura, J. T. Dickinson and S. C. Langford, “Changes in
air exposed fracture surfaces of silicate glasses observed by AFM,” J.
Non-Cryst. Solids. 177, 9-25 (1994).
173. J. T.
Dickinson, L. C. Jensen, and R. L. Webb, “Photoluminescence imaging of
mechanically produced defects in MgO,” J. Non-Cryst. Solids. 177, 1-8
(1994).
174. J. T.
Dickinson, L. C. Jensen, S. C. Langford, and R. G. Hoagland, “Chemisorptive
electron emission as a probe of plastic deformation in reactive metals,” J. Mater.
Res. 9(5), 1156-1165 (1994).
175. Y.
Watanabe, Y. Nakamura, J. T. Dickinson, D. M. Kulawansa, and S. C. Langford,
“Nanometer-scale observations of metallic glass fracture surfaces,” Materials
Sci. and
176. J. T.
Dickinson, M. G. Norton, J. J. Shin, W. Jiang, and S. C. Langford, “Excimer
laser interactions with PTFE relevant to thin film growth,” in Gas-Phase and Surface Chemistry in
Electronic Materials Processing, edited by T. J. Mountziaris, P. R.
Westmoreland, F. T. J. Smith, and G. R. Paz-Pujalt, (Mater. Res. Soc. Proc. 334),
359-364 (1994).
177. J. T.
Dickinson, J. J. Shin, S. C. Langford, and D. Doering, “Positive ion emission
from excimer laser excited MgO surfaces,” Phys. Rev. Lett. 73, 2630-2633
(1994).
178. X. D.
Wang, U. Mazur, K. W. Hipps, and J. T. Dickinson, "Chemical Stability of
Laminated AlN Films," Thin Solid Films 240, 45-51 (1994).
179. M. L.
Dawes, J. T. Dickinson, L. C. Jensen, and S. C. Langford, “Structures obtained
from resolidification of flame melted single crystal germanium,” Nanotechnology
5, 101-112 (1994).
180. S.
Lee, L. C. Jensen, S. C. Langford, , J. T. Dickinson, “Electrical transients
generated by the peel of a pressure sensitive adhesive from a copper
substrate. Part. I” J. Adhesion Sci.
Technol. 9(1), 1-26 (1995).
181. Louis
Scudiero, J. T. Dickinson, L. C. Jensen, and S. C. Langford: “Electrical transients generated by the peel
of a pressure sensitive adhesive from a copper substrate. Part. II.
Analysis of fluctuations,” J. Adhesion Sci. Technol. 9(1), 27-45
(1995).
183. Sumio
Nakahara, S. C. Langford, and J. T. Dickinson, “Chemisorptive electron emission
and atomic force microscopy as probes of plastic deformation during fracture at
a metal/glass interface ,” J. Mater. Res. 10 2033-2041 (1995).
184. Y.
Akimune, T. Akiba,
185. T.
Akiba, Y. Akimune,
186. Wenbiao
Jiang, M. Grant Norton, Lancy Tsung, and J. Thomas Dickinson, “Pulsed laser
deposition of polytetrafluoroethylene,“ J. Mater. Res. 10(4), 1038-1043
(1995).
187. J. T.
Dickinson, L. C. Jensen, K. H. Siek, and K. W. Hipps, “The use of scanning
conducting microscopy to probe abrasion of insulating thin films,” Rev. Sci.
Instrum. 66(7), 3802-3806 (1995).
188. J.-J.
Shin, S. C. Langford, J. T. Dickinson, and Y. Wu, “Electron stimulated neutral
and ion emission from single crystal NaNO3,” Nucl. Instrum. Meth.
Phys. Res. B. 103, 284-296 (1995).
189. R. L.
Webb, S. C. Langford, and J. T. Dickinson, “Neutral atom and molecule emission
accompanying 248-nm laser irradiation of single crystal NaNO3,”
Nucl. Instrum. Meth. Phys. Res. B. 103, 297-308 (1995).
190. Myong-Won
Kim, S. C. Langford, and J. T. Dickinson, “Electron and photon emission
accompanying the abrasion of MgO with diamond,” Tribology Lett. 1,
147-157 (1995).
191. J. T.
Dickinson, K. H. Siek, and K. W. Hipps, “A Scanning conduction microscopic
technique for probing abrasion of thin films,” Tribology Lett. 1,
159-175 (1995).
192. J. T.
Dickinson and K. W. Hipps, “Scanning conduction microscopy: a method of probing abrasion of insulating
thin films on conducting substrates,” in Polymer/Inorganic Interfaces II (MRS
Symp. Proc. 385), edited by L. Drzal, N. A. Peppas, R. L. Opila, and C.
Schutte, (Materials Research Society, Pittsburgh, PA, USA 1995), pp. 221-225.
193. J. T.
Dickinson, J-J Shin, and S. C. Langford, "Mechanisms of excimer laser
induced positive ion emission from ionic crystals," in Film Synthesis and
Growth Using Energetic Beams,” edited by H. A. Atwater, J. T. Dickinson, D. H.
Lowndes, and A. Polman, MRS Symp. Proc. 388 (Materials Research Society,
Pittsburgh, Pennsylvania, 1995), pp. 15-20.
194. Wenbiao
Jiang, M. Grant Norton, J. Thomas Dickinson, and N. D. Evans,"Pulsed Laser
Deposition of titanium nitride," in Film Synthesis and Growth Using
Energetic Beams,” edited by H. A. Atwater, J. T. Dickinson, D. H. Lowndes, and
A. Polman, MRS Symp. Proc. 388 (Materials Research Society, Pittsburgh,
Pennsylvania, 1995), pp. 103-108.
195. L.
Huang, Xiao-Dong Wang, K. W. Hipps, U. Mazur, J. T. Dickinson and R. Heffron,
"Chemical Effects of substrate temperature and feed gas composition on ion
beam deposited AlN and AlN:H," in Film
Synthesis and Growth Using Energetic Beams, edited by H. A. Atwater, J. T.
Dickinson, D. H. Lowndes, and A. Polman, MRS Symp. Proc. 388 (Materials
Research Society, Pittsburgh, Pennsylvania, 1995), pp. 367-372.
196. J. T.
Dickinson, S. C. Langford, and Louis Scudiero, “Spatial and temporal probes of
deformation and fracture at interfaces,” Fractal
Aspects of Materials (MRS Symp. Proc. 367), edited by Fereydoon
Family, B. Sapoval, P. Meakin, and R. Wool (Materials Research Society,
Pittsburgh, PA, 1995), pp. 95-101.
197. S.
Nakahara, S. C. Langford, and J. T. Dickinson, “Surface force microscope
observations of corrosive tribological wear on single crystal NaNO3
exposed to moist air,” Tribology Lett. 1, 277-300 (1995).
198. L. C.
Jensen, S. C. Langford, J. T. Dickinson, and R. S. Addleman, “Mechanistic
studies of laser induced breakdown spectroscopy of model environmental
samples,” Spectrochimica Acta B 50 1501-1519 (1995).
199. J. T.
Dickinson, S. C. Langford, Sumio Nakahara, L. Scudiero, K. W. Hipps, Myoung-Won
Kim, and Nam-Seok Park, “Spatial and temporal probes of fracture, wear, and
deformation,” in Fractography of Glasses
and Ceramics III, edited by J. R. Varner, V. D. Fréchette, and G. D. Quinn
(Ceramic transactions. 64, (1996): 193), American Ceramic Society,
Westerville, Ohio, 1996), pp. 193-256.
200. D. R.
Ermer, J.-J. Shin, S. C. Langford, and J. T. Dickinson, “Positive ion emission
accompanying uv irradiation of single crystal MgO and NaNO3,” in Advanced Laser Procesing of Materials—Fundamentals
and Applications, edited by R. K. Singh, D. Norton, J. Narayan, J. Cheung,
and L. D. Laude, MRS Symp. Proc. 397 (Materials Research Society,
Pittsburgh, Pennsylvania, 1996).
201. J. T.
Dickinson, J.-J. Shin, and S. C. Langford, “The role of defects in laser
induced positive ion emission from ionic crystals,” Appl. Surf. Sci. 96-98,
316-320 (1996).
202. J. T.
Dickinson, J. J. Shin, and S. C. Langford, “Laser-induced emission of neutral
atoms and molecules from electron-irradiated NaNO3,” Appl. Surf.
Sci. 96-98, 326-331 (1996).
203. M.
Grant Norton, Wenbiao Jiang, J. Thomas Dickinson, and K. W. Hipps, “Pulsed
laser ablation and deposition of fluorocarbon polymers,” Appl. Surf. Sci. 96-98,
617-620 (1996).
204. Nam-Seok
Park, Myoung-Won Kim, S. C. Langford, and J. T. Dickinson, “Tribological
enhancement of CaCO3 dissolution during scanning force microscopy,”
Langmuir 12, 4599-4604 (1996).
205. D. R.
Ermer, J.-J. Shin, S. C. Langford, K. W. Hipps, and J. T. Dickinson,
“Interaction of wide band gap single crystals with 248 nm excimer laser
radiation. IV. Positive ion emission from MgO and NaNO3,“
J. Appl. Phys. 80(11), 6452-6465 (1996).
206. Nam-Seok
Park, Myoung-Won Kim, S. C. Langford, and J. T. Dickinson, “Atomic layer wear
of single crystal calcite in aqueous solution using scanning force microscopy,”
J. Appl. Phys. 80(5), 2680-2686 (1996).
207. L.
Huang, X. D. Wang, K. W. Hipps, U. Mazur, R. Heffron, and J. T.
208. J. J.
Shin, Myoung-Won Kim, and J. T. Dickinson, “Effect of tribological wear on UV
laser interactions with single crystal NaNO3 and CaCO3,”
J. Appl. Phys. 80, 7065-7072 (1996).
209. R. L.
Webb, S. C. Langford, and J. T. Dickinson, “The role of defects in the rear
side laser ablation of MgO at 308 nm,” J. Appl. Phys. 80, 7057-7064
(1996).
210. Steven
C. Langford, and Tom Dickinson, “Applications and mechanisms of laser ablation
for elemental analysis of nuclear wastes and contaminated soils,” in Proc. SPIE 2835, Advanced Technologies for Environmental
Monitoring and Remediation, Tuan Vo-Dinh, Ed., pp. 62-72 (1996).
211. R. L.
Webb, G. Exarhos, J. T. Dickinson, “Characterization of particulates generated
from laser ablation of single crystals of NaNO3,”Appl. Spectroscopy
51(5) 707 (1997).
212. J.-J.
Shin, D. R. Ermer, S. C. Langford, and J. T. Dickinson, “The role of
photoelectronic processes in the formation of a fluorescent plume on single
crystal NaNO3 by 248-nm laser irradiation,” Appl. Phys. A 64,
7-18 (1997).
214. D. R.
Ermer, S. C. Langford, and J. T. Dickinson, “Interaction of wide band gap
single crystals with 248 nm excimer laser radiation. V. The role of photoelectronic processes in the
formation of a fluorescent plume from MgO," J. Appl. Phys. 81(3)
1495-1504 (1997).
215. J. T.
Dickinson, L. Scudiero, Kouichi Yasuda, M-W Kim, and S. C. Langford, “Dynamic
tribological probes: Particle emission
and transient electrical measurements,” Tribology Lett. 3(1) 53-67
(1997).
216. J. T. Dickinson,
217. S. C.
Langford and J. T. Dickinson, "Applications and mechanisms of laser
ablation for elemental analysis of nuclear waste and contaminated soils," Advanced Technologies for Environmental
Monitoring and Remediation, SPIE Proceedings Vol. 2835, edited by Tuan
Vo-Dinh (SPIE: The International Society
for Optical Engineering, Bellingham, Washington, 1997), pp. 62-72.
218. J. T.
Dickinson, D. R. Ermer, J. J. Shin, and S. C. Langford, "A defect-mediated
multiple-photon mechanism for ion emission from ionic materials under UV laser
irradiation," in Defects in
Insulating Materials, Mater. Sci. Forum Vol. 239-241, edited by G. E.
Matthews and R. T. Williams (Trans Tech Publications, Switzerland, 1997), pp.
641-646.
219. J. T. Dickinson, "Low Fluence Laser Desorption and Plume
Formation from Wide Bandgap Crystalline Materials,” in Laser Ablation and Desorption, Vol 30 Experimental Methods in the
Physical Sciences, J. C. Miller and R. F. Haglund, eds. (Academic Press, 1998,
New York), pp. 139-172.
220. J. Thomas Dickinson, D. R. Ermer, J.-J. Shin, and Stephen C.
Langford, “Desorption of positive ions and plume formation from laser
irradiation of ionic crystals,” in Proc.
SPIE Vol. 2991, Laser
Applications in Microelectronic and Optoelectronic Manufacturing II, Jan J.
Dubowski, Ed. (SPIE: The International
Society for Optical Engineering, Bellingham, Washington, 1997), pp. 2-20.
221. J. T.
Dickinson, D. R. Ermer, J.-J. Shin, S. .C. Langford, “Fundamental Mechanisms of
Laser Desorption and Plume Formation from Ionic Crystals”: Invited Review Paper, Reza kenkyu = The
review of laser engineering, 25 (4) 267 (1997).
222. Lin
Huang, K. W. Hipps, J. T. Dickinson, U. Mazur, and X. D. Wang, "Structure
and Composition Studies for Silicon Nitrate Thin Films Deposited by Single Ion
Beam Sputter Deposition,” Thin Solid Films 299, 104 (1997).
223. J. T.
Dickinson, S. C. Langford,
224. L.
Scudiero, J. T. Dickinson, and Y. Enomoto, "The electrification of flowing
gases by mechanical abrasion of mineral surfaces, Physics and Chemistry of
Minerals 25, 566-573 (1998).
225. J. T.
Dickinson, D. R. Ermer, J.-J. Shin, and S. C. Langford, "The Dynamics of
laser induced particle emission and plume formation from wide bandgap
materials," Appl. Surf. Sci. 127-129, 7-20- (1998).
226. S. C.
Langford, M. L. Dawes, and J. T. Dickinson, "The role of dehydration in
excimer laser interactions with a transparent, hydrated mineral-CaHPO4.2H2O,"
Appl. Surf. Sci.127-129,81-87 (1998).
227. D. R.
Ermer, J. T. Dickinson, and S. C. Langford, "Electrostatic expansion of a
laser-induced plasma formed from MgO during irradiation at 248 nm," Appl.
Surf. Sci. 127-129, 977-982 (1998).
228. T.
Lippert, J. T. Dickinson, S. C. Langford, H. Furutani, H. Fukumura, and H.
Mashuhara, "Photopolymers designed for laser ablation photochemical
ablation mechanism,” Appl. Surf. Sci. 127-129, 117-121- (1998).
229. R. L.
Webb, T. Lippert, S. C. Langford, and J. T. Dickinson, “Sensitization of PMMA
to excimer laser ablation at 308 nm wavelength,” Appl. Surf. Sci. 127-129,
815-820- (1998).
230. J. T.
Dickinson, L. Scudiero, and S. C. Langford, “A dynamic probe of tribological
processes at metal/polymer interfaces:
Transient current generation,” in Structure
and Properties of Glassy Polymers, ACS Symposium Series 710, Martin
R. Tant and Anita J. Hill, eds., (American Chemical Society, Washington, D.C.,
1998), pp. 272-285.
231. L.
Scudiero, S. C. Langford, and J. T. Dickinson, “Improved evidence for chaos
during peel of pressure sensitive adhesive tape from a metal substrate,” Proceedings
of the First International Congress on Adhesion Science and Technology-Invited
Papers, edited by W. J. Van Ooij and H. R. Anderson, Jr. (VSP, Utrecht, The
Netherlands, 1998), pp. 585-596.
232. L.
Scudiero, S. C. Langford, and J. T. Dickinson, “Electrical currents produced by
the peel of a pressure sensitive adhesive:
Role of electrostatic forces in adhesion,” Proceedings of the First
International Congress on Adhesion Science and Technology-Invited Papers,
edited by W. J. Van Ooij and H. R. Anderson, Jr. (VSP, Utrecht, The
Netherlands, 1998), pp. 597-613.
233. Thomas
K. Lippert, J. Thomas Dickinson, Steve C. Langford, H. Furutani, H. Fukumura,
Hiroshi M. Masuhara, Thilo Kunz, and Alexander J. Wokaun, “Laser machining of
specially designed photopolymers:
Photochemical ablation mechanism,” Proc.
SPIE Vol. 3404, ALT’97—International
Conference on Laser Surface Processing, Vladimir I. Pustovoy, Ed., pp.
192-199 (1998).
234. L.
Scudiero, M. L. Dawes, S. C. Langford and J. T. Dickinson, “SFM observations of
corrosive wear on single crystal brushite (CaHPO4.2H2O)
in aqueous solution,” Tribology Letters 6, 41-55 (1999).
235. T. Lippert, R. L. Webb, S. C. Langford,
and J. T. Dickinson, “Dopant induced ablation of PMMA at 308 nm,” J. Appl.
Phys. 85 1838-1847 (1999).
236. J.
Heitz,
237. J.
Heitz and J. T. Dickinson, “Characterization of particulates accompanying laser ablation of
pressed polytetrafluoroethylene (PTFE),” Appl. Phys. A 68, 515-523
(1999).
238. J.
Heitz, D. Bäuerle, E. Arenholz,
239. C. Bandis, L. Scudiero, S. C. Langford, and J. T. Dickinson,
“Photoelectron emission studies of cleaved and excimer irradiated single
crystal surfaces of NaNO3 and NaNO2,” Surf. Sci.
442(3) 413-419 (1999).
240. R. Hariadi, S. C. Langford, and J. T. Dickinson, “Atomic force
microscope observations of particle detachment from substrates: the role of water vapor in tribological
debonding,” J. Appl. Phys. 86 4885-4891 (1999).
241. T. Lippert, S. C. Langford, A. Wokaun, Georgiou Savas, and J.
T. Dickinson, “Analysis of neutral fragments from ultraviolet laser irradiation
of a photolabile triazeno-polymer,” J. Appl. Phys. 86(12) 7116-7122
(1999).
242. Richard
M. Williams, Kenneth M. Beck, Alan G. Joly, J. Thomas Dickinson, and Wayne P.
Hess, “Pulse-width influence on laser-induced desorption of positive ions from
ionic solids,” in Proc. SPIE Vol. 3618, p. 37-44, Laser Applications in
Microelectronic and Optoelectronic Manufacturing IV, Jan J. Dubowski; Henry
Helvajian; Ernst W. Kreutz; Koji Sugioka; Eds., (1999).
243. J. T. Dickinson, R. Hariadi, and S. C. Langford, “Nanometer
scale investigations of chemical mechanical polishing mechanisms using scanning
force microscopy,” invited review, in Finishing
of Advanced Ceramics and Glasses, (Ceramics Transactions, Volume 102),
American Ceramics Society,
244. J. T. Dickinson, R. F. Hariadi, L. Scudiero, and S. C.
Langford, “A scanning force microscope study of detachment of nanometer-sized
particles from glass surfaces,” Tribology Lett. 7, 113-119 (1999).
245. Y. Kawaguchi, M. L. Dawes, S. C. Langford, and J. T.
Dickinson, “Effect of heat treatment on UV laser induced positive ion
desorption in CaHPO4.2H2O,” Appl. Phys. A 69(7),
621-624 (2000).
246. C.
Bandis, S.C. Langford, J.T. Dickinson, D.R. Ermer “Laser desorption of
energetic ions from single crystal NaNO3 at 1064 nm,” Appl. Phys. A 69(7),
129-132 (2000).
247. S. C. Langford, J. T. Dickinson, and M. L. Alexander, “The
production of sub-micron sodium nitrate particles by laser ablation,” Appl.
Phys. A 69(7), 647-650 (2000).
248. J. T.
Dickinson, R. Hariadi, and S. C. Langford, “Mechanical detachment of nanometer
particles strongly adhering to a substrate:
an application of corrosive tribology,” J. Adhesion (Invited: Special Issue) 74 373-390 (2000).
249. M. L.
Dawes, W. Hess, Y. Kawaguchi, S. C. Langford, and J. T. Dickinson, “Laser-induced
positive ion and neutral atom/molecule emission from single crystal CaHPO4.2H2O: The role of electron beam induced defects,”
Appl. Phys. A 69(7) 547-552 (2000)
250. C.
Bandis, L. Scudiero, S. C. Langford, and J. T. Dickinson,, “Positive ion emission
from ionic crystals accompanying 248 nm laser irradiation, Appl. Phys. Lett. 76(4),
421–423, (2000).
251. J. T. Dickinson, S. C. Langford, Christos
Bandis, M. L. Dawes, and Y. Kawaguchi. "Consequences of combining laser
irradiation with other stimuli on laser desorption and ablation from wide
bandgap insulators," Appl. Surf. Sci. 154-155, 291-304 (2000).
252. Y.
Kawaguchi, M. L. Dawes, S. C. Langford, and J. T. Dickinson, “Interaction of
wide bandgap single crystals with 248 nm excimer laser irradiation. VI. The influence of thermal pre-treatment on
laser desorption of positive ions from a water-containing ionic crystal (CaHPO4·2H2O)”
J. Appl. Phys. 88 647-656 (2000).
253. Wayne
P. Hess, Alan G. Joly, Kenneth M. Beck, Richard M. Williams, J. Thomas
Dickinson, “Femto-second Time-Resolved Laser Induced Desorption of Positive
Ions from MgO,” Appl. Phys. A 69(7) 389-393 (2000).
254. T. Lippert , A. Wokaun , S.C. Langford , J.T. Dickinson
“Emission of neutral molecules during UV laser ablation of a photolabile
triazeno polymer,” 69(7) Appl. Phys. A 69(7) 655-658 (2000).
255. C.
Bandis, S. C. Langford, J. T. Dickinson,
D. R. Ermer, and Noriaki Itoh, “Laser desorption of energetic ions from single
crystal NaNO3 at 1064 nm,” J. Appl. Phys. 87(3) 1522-1528
(2000).
256. J. T.
Dickinson, Y. Kawaguchi, M. L. Dawes, S. C. Langford, and J. T. Dickinson,
“Onset of laser plume formation at 248 nm on cleaved single crystal NaCl: Evidence for highly localized emissions,” Proc.
SPIE Vol. 3935, Laser
Plasma Generation and Diagnostics, Richard F. Haglund and Richard F. Wood; Eds., p. 38-46, (2000).
257. Christos
Bandis, Y. Kawaguchi, Mary L. Dawes, Steve C. Langford, and J. Thomas
Dickinson, “Investigations of laser desorption from modified surfaces of ionic single
crystals,” Proc. SPIE Vol. 3933, p. 2-13, Laser Applications in
Microelectronic and Optoelectronic Manufacturing V, Henry Helvajian; Koji
Sugioka; Malcolm C. Gower; Jan J. Dubowski; Eds (2000)
258. J. T.
Dickinson, R. F. Hariadi, L. Scudiero, and S. C. Langford, “Scanning force
microscope study of detachment of nanometer adhering particles,” Mater. Sci.
Engin. A288, 182-186 (2000).
259. J.
Thomas Dickinson, Christos Bandis, and Stephen C. Langford, “When a
mild-mannered 1-5 eV photon meeta a big 10 eV Bandgap: studies of laser desorption from modified
surfaces of ionic single crystals,” in Laser-Solid Interactions for
Materials Processing MRS Proc. 617,
pp. 1-12, D. Kumar, D.P. Norton, C.B.
Lee, K. Ebihara, X. Xi, Eds. (2000).
260. S. D.
Ibsen, N. Z. Hertelendy, S. C. Langford, and J. T. Dickinson, “Effect of
humidity on the failure of ethylene vinyl acetate/soda lime glass interfaces
under simple tension using small samples,” J. Adhesion Sci. Technol. 15(5),
613-629 (2001).
261. Y.
Kawaguchi, M. L. Dawes, S. C. Langford, and J. T. Dickinson, “Interaction of
wide bandgap single crystals with 248 nm excimer laser irradiation. VII. Localized Plasma Formation on NaCl single
surfaces,” J. Appl. Phys. 89 2370-2378 (2001).
262. S.
Kano, S. C. Langford, and J. T. Dickinson, “Interaction of wide bandgap single
crystals with 248 nm excimer laser irradiation VIII. Laser desorption of
molecular ions from MgO,” J. Appl. Phys 89(5) 2950 (2001).
263. J. T. Dickinson, “Fracto-Emission”, in Encyclopedia of Materials: Science and Technology, Editors-in-Chief--
K.H. Jürgen Buschow, Robert W. Cahn, Merton C. Flemings, Bernhard Ilschner,
Edward J. Kramer, and Subhash Mahajan, Elsevier, London (2001).
264. R. J.
Greve, S. C. Langford, and J. T. Dickinson, “Oxidation and reduction reactions
responsible for galvanic corrosion of ferrous and reactive metals in the
presence of a perfluoropolyether lubricant,” Wear 249(8), 727-732
(2001).
265. J. T.
Dickinson, C. Bandis, and S. C. Langford, “Fundamental studies of laser desorption
from modified surfaces of ionic crystals,” Radiation Effects and Defects in
Solids, 156 59-67 (2001).
266. J. T.
Dickinson, R. F. Hariadi, and S. C. Langford, “Mechanical detachment of
nanometer particles strongly adhering to a substrate,” invited review chapter
in Particle Adhesion: Applications and
Advances, David J. Quesnel, Donald
S. Rimai, and Louis H. Sharpe, ed., Taylor and Francis, New York, 2001.
267. Yoshizo
Kawaguchi, Steve C. Langford, and J. T. Dickinson, “Plume formation and optical
breakdown on KrF excimer laser-irradiated silica glass,” in Laser Applications in Microelectronic and
Optoelectronic Manufacturing VI, Proc.
SPIE Vol. 4274, Malcolm C. Gower, Henry Helvajian, Koji Sugioka, and
Jan J. Dubowski, Eds., pp. 258-265 (2001).
268. A. G.
Joly, W. P. Hess, K. M. Beck, and J. T. Dickinson, “Femtosecond time-resolved photo-stimulated desorption from ionic
crystals,” Appl. Surf. Sci. 186, 339-345 (2002).
269. L. Cramer, S. C. Langford, W. Hess
and J. T. Dickinson, “Fundamental studies of photodesorption of cations from
ionic inorganic crystals at 157 nm, Appl. Surf. Sci. 197-198, 35-40
(2002).
270. T. Lippert, J. T. Dickinson, M.
Hauer, G. Kopitkovas, S. C. Langford, H. Masuhara, O. Nuyken, J. Robert, T.
Tada, K. Tomita, and A. Wokaun, “Polymers designed for laser ablation—Influence
of photochemical properties,” Appl. Surf. Sci., 197-198, 746-756 (2002).
271. Y.
Kawaguchi, A. Narazaki, T. Sato, H. Niino, A. Yabe, S. C. Langford, and J. T.
Dickinson, Kunihito Nagayama, Kazunari Inou and Motonao Nakahara, “The onset of
optical breakdown in KrF-laser-irradiated silica glass,” Appl. Surf. Sci. 197-198,
50-55 (2002).
272. K. Nwe, S. C.
Langford, and J. T. Dickinson, “The
effect of water vapor and bulk temperature on positive ion emission from wide
bandgap single crystals during exposure to 248 nm excimer laser irradiation,” Appl.
Surf. Sci. 197–198, 83-89 (2002).
273. C.
Bandis, T. Holt, L. Cramer and J. T. Dickinson, “On the white light
luminescence induced by irradiation of sodium nitrate single crystals by 1064
nm laser light,” Appl. Surf. Sci. 197-198, 100-106 (2002).
274. M.
Hauer, T. Dickinson, S. Langford, T. Lippert, A. Wokaun, “Influence of the
irradiation wavelength on the ablation process of designed polymers,“ Appl. Surf. Sci. 197-198, 791
(2002).
275. Friedemann
Freund, J. Thomas Dickinson, and Michele Cash, “Hydrogen in rocks: An energy source for deep microbial
communities,” Astrobiology 2(1),
83-92 (2002).
276. Wayne
P. Hess, Alan G. Joly, Kenneth M. Beck, and J. Thomas Dickinson, “Time-resolved
femtosecond laser desorption from wide-bandgap single crystals,” Proc. SPIE
Vol. 4760, High-Power Laser Ablation IV,
Claude R. Phipps, Ed., pp. 318-325 (2002).
277. J.
Thomas Dickinson, Khin Hla Nwe, and Steve C. Langford, “Synergisms at surfaces
involving radiation and solvents:
Nanometer-scale implications,” in Proc. SPIE Vol. 4760, High-Power Laser Ablation IV, Claude R.
Phipps, Ed., pp. 192-203 (2002).
278. J. T. Dickinson, M. L. Dawes, Khin Hla
Nwe, and S. C. Langford, “Consequences of combined chemical and radiative
exposure of solid surfaces,” invited review, in Proc. SPIE Vol. 4637, Photon Processing in Microelectronics and
Photonics, Koji Sugioka; Richard F. Haglund, Alberto Pique, Frank Traeger, Jan
J. Dubowski, and Willem Hoving, Eds., pp. 1-12 (2002).
279. J. T.
Dickinson, “Physical and chemical aspects of laser materials interactions
relevant to laser processing,” invited review in Proc. SPIE Vol. 4637, Photon
Processing in Microelectronics and Photonics, Koji Sugioka; Richard F. Haglund, Alberto Pique, Frank Traeger, and
Jan J. Dubowski, Eds., pp. 453-464 (2002).
280. R. Hariadi, S. C. Langford, and J. T.
Dickinson, “Controlling nanometer-scale crystal growth on a model biomaterial
with a scanning force microscope,” Langmuir
18(21), 7773-7776 (2002).
281. W. Maw, F. Stevens, S. C. Langford, and J. T. Dickinson, “Single asperity tribochemical wear of silicon
nitride studied by atomic force microscopy,” J. Appl. Phys. 92 5103-5109 (2002).
282.
J. V. Wasem, P. Upadhyaya, S. C.
Langford, and J. T. Dickinson, “Transient current generation during wear of
high density polyethylene by a stainless steel stylus,” J. Appl. Phys. 93(1)
719-730 (2003).
283. J. V.
Wasem, B. L. LaMarche, S. C. Langford, and J. T. Dickinson, “Triboelectric
charging of Fomblin ZDOL perfluoropolyether lubricants,” J. Appl. Phys. 93(4),
2002-2007 (2003).
284. T. Lippert and J. T. Dickinson, “Chemical
and spectroscopic aspects of polymer ablation: Special features and novel directions,” invited review, Chemical Reviews, 103(2)
453-486 (2003). (contains ~ 400 references).
285. Myoung-Won Kim, L. C. Jensen, S. C.
Langford, and J. T. Dickinson, “Emission of neutral Mg from MgO during abrasion
with diamond,” J. Appl. Phys. 93(4) 1819-1825, (2003).
286. J. T. Dickinson, “Nanometer-scale surface
modification using scanning force microscopy in chemically active environments,”
Surface Modifications and Processing:
Physical & Chemical Tribological Methodologies, edited by G. Totten and
Hong Liang (Marcel Dekker, New York, 2003) pp. 671-699.
287. J. B.
Lonzaga, S. M. Avanesyan, S. C. Langford, and J. T. Dickinson, “Color center
formation in soda lime glass with femtosecond laser pulses,” J. Appl. Phys. 94(7),4332-4341 (2003).
288. Forrest Stevens, Steve Langford, and J.
Thomas Dickinson, “Single Asperity Chemical Mechanical Wear Studied by Atomic
Force Microscopy”, in Chemical-Mechanical
Planarization, Materials Research Society
Editors: Duane S.
Boning, Katia Devriendt, Michael R. Oliver, David J. Stein, Ingrid Vos, Vol. 767, (2003).
289. R. Leach, F. Stevens, and J. T.
Dickinson, “Nanometer-scale solvent-assisted modification of polymer surfaces
using scanning force microscopy”, Langmuir 19(24), 10225-10232 (2003).
290. J. T. Dickinson, Khin Nwe, W. P. Hess, and S. C. Langford, “Synergistic effects of exposure of surfaces of ionic crystals to radiation and water,” Appl. Surf. Sci. 208, 2-15 (2003).
291. J.
T. Dickinson,
292. S.
M. Avanesyan,
293. Sergey
M. Avanesyan, Stefano Orlando, Steve C. Langford, J. Thomas Dickinson, “Generation of color centers by femtosecond
laser pulses in wide-bandgap materials”, Proc. SPIE Vol. 5352, Ultrafast
Phenomena in Semiconductors and Nanostructure Materials VIII, Kong-Thon Tsen et. al. Ed., pp. 169-179 (2004).
294. Joel
B. Lebret, Loren P. Cramer, M. Grant M. Norton, and J. T. Dickinson, Colloid formation and laser-induced bleaching in fluorite, Appl. Phys. Lett. 85(19) 4382-4385 (2004).
295. M.
Cai, S. C. Langford, L. E. Levine, and J. T. Dickinson, “Determination of strain localization in aluminum alloys using
laser-induced photoelectron emission”,
J. Appl. Phys. 96(12), 7189-7194 (2004).
296. K. H.
Nwe, S. C. Langford, and J. T. Dickinson, “Interaction of wide band gap single
crystals with 248 nm excimer laser irradiation. IX. Photo-induced atomic desorption from cleaved
NaCl(100) surfaces,” J. Appl. Phys. 98, 13506 (2005).
297. K. H.
Nwe, S. C. Langford, and J. T. Dickinson, “Interaction of wide-band-gap single crystals with 248-nm excimer laser
irradiation. X. Laser-induced near-surface absorption in single-crystal NaCl,” J. Appl. Phys. 97(4), 43501 (2005).
298. K. H.
Nwe, S. C. Langford, and J. T. Dickinson, “Interaction of wide-band-gap single crystals with 248-nm excimer laser
radiation. XI. The effect of water vapor and temperature on laser desorption of
neutral atoms from sodium chloride,”
J. Appl. Phys. 97(4), 43502 (2005).
299. L. P. Cramer, B. Schubert, P. Petite,
S. C. Langford, and J. T. Dickinson, “Laser
interactions with embedded Ca metal nanoparticles in single crystal CaF2,”
J. Appl. Phys. 97(7), 74307 (2005).
300. L. P. Cramer, T. D. Cumby, J. A. Leraas,
S. C. Langford, and J. T. Dickinson, “Effect of surface treatments on
301. S. M. Avanesyan, S. Orlando, S. C.
Langford, and J. T. Dickinson, “Through a glass, darkly": point defect production by ultrafast laser
irradiation of alkali-containing silica glasses and alkali halide single crystals,
SPIE Proceedings Volume 5647, Laser-Induced
Damage in Optical Materials: 2004, Gregory J. Exarhos, Arthur H. Guenther,
Norbert Kaiser, Keith L. Lewis, M. J. Soileau, Christopher J. Stolz, Editors,
pp. 501-512 (2005).
302. S. Orlando, S. M. Avanesyan, S. C. Langford, and J. T.
Dickinson, “Point defect production by
ultrafast laser irradiation of alkali-containing silica glasses and alkali
halide single crystals”, Appl. Surf. Sci. 248(1-4), 129-137 (2005).
303. M. Cai, L. E. Levine, S. C. Langford, and
J. T. Dickinson, “Observation of dislocation motion in single crystal and
polycrystalline aluminum during uniaxial deformation using a photoemission
technique”, Mater. Sci. Engin. A 401-402, 476-480 (2005).
304. Matthias Henyk, Kenneth M. Beck, Mark H. Engelhard, Alan G.
Joly, Wayne Hess, and J. Thomas Dickinson, “Surface electronic properties and
site–specific desorption processes studied at highly structured nanoporous MgO
thin films,” Surf. Sci., 593 242 (2005).
305. J. T. Dickinson, “Rubbing on a Small Scale,” invited review,
J. Chem. Ed. 82(5), 734-742 (2005).
306. F.
Stevens, S. C. Langford, and J. T. Dickinson, “Tribochemical wear of sodium
trisilicate glass at the nanometer size scale,” J. Appl. Phys. 99(2), 023529
(2006).
307. F.
Stevens, R. N. Leach, S. C. Langford, and J. T. Dickinson, “Influence of
molecular weight on nano-scale modification of poly(methyl methacrylate) due to
simultaneous mechanical and chemical stimulation Langmuir 22(7),
3320 -3325 (2006).
308. Gang Xiong, Alan G. Joly, Kenneth M. Beck
and Wayne P. Hess, Mingdong Cai, Stephen C. Langford, and J. Thomas Dickinson,
“In-situ photoelectron emission microscopy of a thermally-induced martensitic
transformation in a CuZnAl shape memory alloy”, Appl. Phys. Lett. 88, 091910, (2006).
309. J. T. Dickinson, “Studies of
Tribochemistry on the Nanometer Size Scale”, invited review paper, Conference Proceedings
on Chemical Mechanical Polishing, Institute for Microelectronics and
Interconnection, 2006.
310. J. T. Dickinson, “Single Asperity
Nanometer-Scale Studies of Tribochemistry,” invited review chapter, in Nanotribology: Friction and Wear on
the Atomic Scale, edited by Ernst Meyer and Enrico Gnecco (Springer,
311. L. P. Cramer, S. C. Langford, and J. T.
Dickinson, “The
formation of metallic nanoparticles in single crystal CaF2 under 157
excimer laser irradiation”, J. Appl. Phys. 99, 054305-054310 (2006).
312. A. L. McEvoy,
S. C. Langford, and J. T. Dickinson, “Induced nanometer scale growth of calcite
with the Atomic Force Microscope,” Langmuir 22(16), 6931-6938 (2006).
313. Hongbo Cao;
Dong Ma; Ker-Chang Hsieh; Ling Ding; William G. Stratton; Paul M. Voyles; Ye
Pan; Mingdong Cai; J. T. Dickinson; Y.A. Chang, “Computational thermodynamics
to identify Zr-Ti-Ni-Cu-Al alloys with high glass forming ability,” Acta Materialia 54,
2975-2982 (2006).
314. J. T. Dickinson, “Physical and chemical aspects
of laser materials interactions,” invited review chapter in Proceedings of the NATO ASI Workshop on Photon-based
Nanoscience and Technology: Materials, Diagnostics and Nanobiodevices, NATO Science Series, (2006).
315. Gang Xiong, A. Joly, W.P. Hess, Mingdong Cai, and J. T.
Dickinson, “Introduction to photoelectron emission microscopy: principles and applications,” invited review
paper, Journal of the Chinese Electron Microscopy Society 25(1), 16-24
(2006).
316.
R. N. Leach, F. Stevens, S. C.
Langford, and J. T. Dickinson, “Dropwise condensation: Experiments and
simulations of nucleation and growth of water drops in a cooling system,” Langmuir 22, 8864-8872 (2006).
317. M. Cai, W. Li, and J. T. Dickinson,
“Simultaneous measurements of photoemission and morphology of various Al alloys
during mechanical deformation,” J. Appl. Phys. 100, 103518-103528 (2006).
318. S. R. John, J.
Lerass, S. C. Langford, and J. T. Dickinson, “Ion emission from fused silica under
157-nm excimer laser irradiation at fluences below plasma formation threshold:
the role of surface defects,” in High-Power Laser Ablation VI, edited by
Claude R. Phipps, Proceedings of the SPIE, Volume 6261, pp. 626108 (2006).
319. M.
Cai, M. R. Stoudt, L. E. Levine, and J. T. Dickinson, “A combined study of
surface roughness in polycrystalline aluminium during uniaxial deformation
using laser-induced photoemission and confocal microscopy,” Philosophical Magazine
87(6) 907-924 (2007).
320. S. Orlando, S. C. Langford, and J. T.
Dickinson, “Color center production by
ultrafast laser irradiation of potassium bromide and potassium chloride,” Appl.
Surf. Sci. 253, 7874–7878 (2007) .
321. M. Cai, S. C. Langford, J. T. Dickinson,
M. J. Wu, W. M. Huang, Gang Xiong, T. C.
Droubay, A. G. Joly, K. M. Beck, and W. P. Hess, “Study of martensitic phase
transformation in a NiTiCu thin film shape memory alloy using PEEM,” Advanced
Functional Materials, 17, 161-167 (2007).
322. M.
Cai, Y.Q. Fu,
323. J. T.
Dickinson and B. Shipley, “A Linux Based On-Line Science Quizzing and Tutoring
System,” FreeWare—download available at SourceForge.net (http://sourceforge.net/)
324. S. R. John, J. A. Leraas, S. C. Langford,
and J. T. Dickinson, “Laser-induced ion
emission from wide bandgap materials,”
Appl. Surf. Sci. 253(15), 6283-6288 (2007).
325. M. Cai, S. C.
Langford, J. T. Dickinson, Gang Xiong , T. C. Droubay, A. G. Joly, K. M. Beck,
W. P. Hess, "An in situ study of the
martensitic transformation in shape memory alloys using photoemission
electron microscopy," Journal of Nuclear Materials 361, 306–312
(2007).
326. R.
Imoto, F. Stevens, S. C. Langford, and J. T. Dickinson, “AFM investigations of
chemical-mechanical processes on silicon(100) surfaces= MRS Symp. Proc. –Advances
and Challenges in CMP (Materials Research Society, Pittsburgh,
Pennsylvania 991, 93-105 2007).
327. Sharon R. John, J. A. Leraas, S. C. Langford, and J. T. Dickinson, “Ion emission from fused silica under 157-nm
irradiation,” J. Phys.: Conf. Series 59, 736-739 (2007).
328. M. Cai, S. C. Langford, J. T. Dickinson,
David J. Pitchure, and Lyle E. Levine, “Laser-induced
photoemission as a probe of slip band formation in single crystal and
polycrystalline aluminum during uniaxial deformation,” J. Phys.: Conf.
Series 59, 678-681 (2007).
329. M. Kuhnke, L. Cramer, L.; P. E. Dyer, J.
T. Dickinson, T. Lippert, H. Niino, M. Pervolaraki, C. D. Walton, and A.
Wokaun, “F2 excimer laser
(157 nm) ablation of polymers: Relation
of neutral and ionic fragment detection and absorption,” J. Phys.: Conf.
Series 59, 625-631 (2007).
330. M. Cai, S. C. Langford, J. T. Dickinson,
and L. E. Levine, “Deformation of cube-textured aluminum studied using
laser-induced photoelectron emission,” J. Mater. Sci. 22(9), 2582-2589
(2007).
331. C.
Bates, F. Stevens, S. C. Langford, and J. T. Dickinson, “Nanoscale craters in
poly(methyl methacrylate) formed by exposure to condensing solvent vapor,” Journal
of Materials Research 22(12), 2007.
332. K.
Kimura, S. C. Langford, and J. T. Dickinson, “Interaction of wide-band-gap
single crystals with 248-nm excimer laser radiation. XII. The emission of
negative atomic ions from alkali halides,” J. Appl. Phys. 102(11), 114904
(2007).
334. C. M. Bates,
F. Stevens, S. C. Langford, and J. T. Dickinson, “The motion and dissolution of
drops of sparingly soluble alcohols on water,” Langmuir 24(14), 7193–7199 (2008).
335. J. T. Dickinson, “Observation
of negative alkali ions from alkali halides during 248-nm laser irradiation,”
Appl. Phys. A. 92, 1025-1030 (2008).
336. S.R. John, S.C. Langford, J.T. Dickinson, “Ablation mechanism
of PTFE under 157 nm irradiation,” Appl. Phys A 92, 981–985 (2008).
337. Mingdong Cai, Stephen C. Langford, and J.
Thomas Dickinson, “Orientation
dependence of slip band formation in
single-crystal aluminum studied by photoelectron emission,” Acta Materialia 56(20) 5938-5945
(2008).
338. R. Bennewitz
and J. T. Dickinson, “Fundamental Studies of Nanometer-Scale Wear Mechanisms,” (INVITED
REVIEW), MRS Bulletin (Materials Research Society), 33(12)
1174-1181 (2008).
339. R. Imoto, F. Stevens, S.C. Langford, and
J.T. Dickinson, “Atomic force microscopy studies of chemical–mechanical
processes on silicon (100) surfaces,” (Invited
Review), Appl. Phys. A 94, 35–43 (2009).
340. E. H.
Khan, S. C. Langford, J. T. Dickinson, Lynn A. Boatner, and Wayne P. Hess “Photo-induced
formation of zinc nanoparticles by UV laser irradiation of ZnO”,
Langmuir 25(4), pp 1930–1933 (2009).
341. A. Soudi, E. H. Khan, J. T. Dickinson, and
Y. Gu, “Observation of unintentionally incorporated nitrogen-related complexes
in ZnO and GaN nanowires,” Nano Lett. 9(5), 1844-1849 (2009).
342. Sharon
R. George, John A. Leraas, and Stephen C. Langford, J.T. Dickinson, “Interaction
of 157-nm excimer laser radiation with fluorocarbon polymers,” Appl. Surf. Sci.
255(24) 9556-9561 (2009).
343. S. Orlando, S. C. Langford, J. T. Dickinson, Generation of color centers in alkali halide
single crystals using ultrafast laser pulses, J. Optoelectronics and Adv. Mat. 12
(3), 707- 710 (2010).
344. Sharon
R. George, J. A. Leraas, S. C. Langford, and J. T. Dickinson, "Interaction
of vacuum ultraviolet excimer laser radiation with fused silica: I. Positive
ion emission", J. Appl. Phys. 107(3), 033107 (2010).
345. Sharon
R. George, S. C. Langford, and J. T. Dickinson, "Interaction of vacuum
ultraviolet excimer laser radiation with fused silica: II. Neutral emission", J. Appl. Phys. J.
Appl. Phys. 107(3), 033108 (2010).
346. Sharon
R. George, S. C. Langford, and J. T. Dickinson, "Interaction of vacuum
ultraviolet excimer laser radiation with fused silica: III. Negative ion formation", J. Appl. Phys. J.
Appl. Phys. 107(3), 033109 (2010).
347. M.
Cai, R. E. Ricker, L. E. Levine, S. C. Langford, and J. T. Dickinson, “The
effect of thermal oxidation on laser-induced photoelectron emission during tensile
deformation of polycrystalline aluminum”,
J. Appl. Phys. 107, 053526 (2010)
348. Kenichi Kimura, S. Langford, J. Thomas Dickinson, "The
Emission of Negative Potassium Ions from Single Crystal Potassium Bromide
during Exposure to 248-nm Excimer Laser Radiation", (Invited Contribution) J. Phys. Chem.-C 114 (12), 5700–5708 (2010).
349. E.
H. Khan, S. C. Langford, J. T. Dickinson, "Zinc ion and neutral emission from single crystal zinc
oxide during 193-nm excimer laser
exposure", SPIE Proceedings, LAMOM Conference 7920, 2011
350. M.
Cai, S. C. Langford,
and J. T.
Dickinson, "Tribochemical wear of single crystal aluminum in NaCl solution studied by
atomic force microscopy", J.
Appl. Phys. 107, 063509
(2011).
350. Enamul Khan, S. C. Langford, and,
J. T. Dickinson, Positive ion emission from oxidized aluminum during ultraviolet excimer
laser irradiation, J.
Appl. Phys. 110, 023110 (2011).
351. Enamul
Khan, S. C. Langford, J. T. Dickinson, and Lynn Boatner, “The interaction of
193-nm excimer laser irradiation with single-crystal zinc oxide: Positive ion emission", J. Appl. Phys. 111, 063101 (2012).
352. Enamul
Khan, S. C. Langford, J. T. Dickinson, and Lynn Boatner, “The interaction of
193-nm excimer laser irradiation with single-crystal zinc oxide: Neutral atomic zinc and oxygen
emission", J. Appl. Phys. 114,
053511 (2013).
353. Enamul Khan, S. C.
Langford, J. T. Dickinson, and Lynn Boatner, “The interaction of 193-nm excimer
laser irradiation with single-crystal zinc oxide: The generation of atomic Zn
line emission at laser fluences below breakdown", J. Appl. Phys. 114, 083102 (2013).
In
preparation:
E.
H. Khan, S. C. Langford, J. T. Dickinson, "The production of long lived Zn
atom Rydberg states from laser irradiation of single crystal ZnO at 193 nm
wavelength,” to be submitted to J. Appl. Phys.
S. R. John, S. C. Langford, and J. T. Dickinson, “Ion and Neutral Particle Emission from polytetrafluoroethylene
(PTFE) under 157-nm excimer laser irradiation,” in preparation.
K. H. Nwe, S. C. Langford, and J. T. Dickinson,
“Interaction of wide band gap single crystals with 248 nm excimer laser
irradiation. XIII: Photochemical and
photomechanical response of inorganic single crystals at the nanometer size
scale,” in preparation.
J. A. Leraas, S. Rose, S. C. Langford, and J. T.
Dickinson, “Ion and Neutral Particle
Emission from poly(vinylidene fluoride) (PVDF) and poly(chlorotrifluoroethylene) (Kel-F) under 157-nm excimer laser irradiation,” in
preparation.
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