Expert Details
Thin-Film Deposition, Lasers, Optical Spectroscopy, Cryogenics
ID: 729232
Ohio, USA
Introducing and adapting specific optical quality measurements for Nissin Brake OH. At WPAFB, he successfully implemented lock–in technique in a Bomem Fourier spectrometer in order to measure far infrared emission without the influence of black body radiation.
Education
| Year | Degree | Subject | Institution |
|---|---|---|---|
| Year: 1988 | Degree: PhD | Subject: Physics | Institution: University of Vienna |
| Year: 1986 | Degree: MBA | Subject: Physics | Institution: University of Vienna |
| Year: 1981 | Degree: BS | Subject: Electrotechnique/Electronics | Institution: Polytechnic St. Poelten (Austria) |
Work History
| Years | Employer | Title | Department |
|---|---|---|---|
| Years: 2004 to Present | Employer: Undisclosed | Title: Research Physicist | Department: Air Force Research Laboratory (AFRL/RXPS) |
Responsibilities:Available upon request. |
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| Years | Employer | Title | Department |
| Years: 2000 to 2010 | Employer: Bowling Green State University | Title: Assist./Assoc. Prof. | Department: Physics and Astronomy |
Responsibilities:Available upon request. |
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| Years | Employer | Title | Department |
| Years: 1998 to 2000 | Employer: Institute of Physical and Chemical Research (RIKEN), Japan | Title: Frontier Researcher | Department: |
Responsibilities:Available upon request. |
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| Years | Employer | Title | Department |
| Years: 1993 to 1998 | Employer: New Energy and Industrial Technology Development Organization (NEDO), Japan | Title: Industrial Researcher | Department: |
Responsibilities:Available upon request. |
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| Years | Employer | Title | Department |
| Years: 1991 to 1993 | Employer: Technical University Graz, Austria | Title: Lecturer | Department: |
Responsibilities:Available upon request. |
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| Years | Employer | Title | Department |
| Years: 1989 to 1991 | Employer: University of Strasbourg, France | Title: Postdoctoral Researcher | Department: |
Responsibilities:Available upon request. |
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Government Experience
| Years | Agency | Role | Description |
|---|---|---|---|
| Years: 2004 to Present | Agency: WPAFB | Role: Researcher/Consultant | Description: |
International Experience
| Years | Country / Region | Summary |
|---|---|---|
| Years: 1993 to 1998 | Country / Region: Japan/Tokyo | Summary: He worked as an industrial researcher for The New Energy and Industrial Technology Development Organization (NEDO), developing new concepts for optical data transmission. |
Career Accomplishments
| Associations / Societies |
|---|
| Member of the Optical Society of America (OSA), International Society for Optical Engineering (SPIE), and the Institute of Physics (IOP). |
| Awards / Recognition |
|---|
| Honorably listed in: - Marquis Who’s Who (13th Edition) - Marquis Who’s Who in Science and Engineering (4th Edition), - Five Hundred Leaders of Influence of The American Biographical Institute (6th Edition) - 2000 Outstanding People of the 20th Century of the International Biographical Centre Cambridge, England - Man of Achievement, Seventeenth Edition 1997, International Biographical Centre Cambridge, England Awards - The 1996 - Man of The Year - Commemorative Medal from The American Biographical Institute due to outstanding publication record. |
| Publications and Patents Summary |
|---|
| He has more than 150 publications and 5 patents. |
Additional Experience
| Training / Seminars |
|---|
| Invited presentations at universities and research facilities - “Thin-film CdS towards optical, optoelectronic, and hybrid device applications”, at the University of Dayton, April 3, 2009 - “Roosbroeck-Shockley analysis of p-type GaAs”, at UT, July 18, 2006 - “All-optical signal modulation due to laser crossing in thin-film GaAs on glass”, at Millersville University, March 29, 2006 - “Along the road map for future communication systems: Photons replace electrons”, at Saturday Mornings with Physics at UT, June 25, 2005 - “All-optical logic gate realization due to laser crossing in thin-film GaAs on glass”, at the BGSU/UT Physics Colloquium, February 3, 2005 - “Optoelectronic research at BGSU: Ultra-fast two-photon spectroscopy and hybrid bistability in CdS”, at Employer, March 8, 2002 - “Optoelectronic properties of thin-film CdS formed by ultraviolet and infrared pulsed-laser deposition” at Miami University, March 7, 2001 - “The Formation of Thin Semiconducting Films by Pulsed Laser Deposition”, at the Center of Photochemical Sciences at BGSU, September 18, 2000 - “Optoelectronic properties of thin film CdS formed by pulsed laser deposition”, at the BGSU/UT Physics Colloquium, August 31, 2000 - “Overview on the growth of CdS”, at the Workshop Inorganic/Organic Optoelectronic Devices at Virginia Tech, April 21, 2000 |
| Marketing Experience |
|---|
| Optical quality control measurements for the automotive industry. |
| Other Relevant Experience |
|---|
| Member of the Optical Society of America (OSA), the International Society for Optical Engineering (SPIE), and the Institute of Physics (IOP). Participant of the NSF NANOFAB 05 panel, referee for ACS grant proposals, and various scientific journals such as, Optics Letters, IEEE Photonics Technology Letters, Applied Physics A, Journal of Crystal Growth, Materials Letters, Semiconductor Science and Technology, Physical Review B, Phys. Rev. Letter, Applied Physics Letters, and Journal of Applied Physics. In 1996, he received - Man of The Year - Commemorative Medal from The American Biographical Institute. |
Language Skills
| Language | Proficiency |
|---|---|
| German | |
| French |
Fields of Expertise
semiconductor growth, thin-film analysis, thin-film circuit element, thin-film coating process, thin-film deposition, vacuum technology, absorption spectroscopy, absorption spectrum, applied spectroscopy, Fabry-Perot interferometer, Fourier transform, gallium arsenide laser, gas laser, helium-neon laser, laser ablation, laser development, laser safety regulation, optical spectroscopy, semiconductor laser, solid-state laser, Bragg angle, Bragg's law, cryogenics, geometrical optics, high-temperature superconductivity, high-temperature superconductor, laser optics, solid-state physics, thin-film optics, nanomaterial, nanoparticle, amorphous photovoltaic cell, amorphous semiconductor, amorphous solid, disordered material, doped semiconductor, electronics, energy band, exciton, II-VI semiconductor material, III-V semiconductor material, indium antimony, intrinsic semiconductor, metal-insulator semiconductor material, metal-oxide semiconductor material, metal-oxide-metal semiconductor material, negative-type semiconductor material, photoconductive effect, photoconductive material, positive-type semiconductor material, semiconductor material, semiconductor material characterization, semiconductor material manufacturing, semiconductor material processing, semiconductor material property, semiconductor rectifier, thin film, Bistability, pulsed laser deposition, fiber laser, Czochralski process, crystal lattice physics, hybrid electronic equipment, semiconductor wafer epitaxial deposition, hybrid microelectronic device, polycrystalline silicon, glass optical fiber, Bardeen-Cooper-Schrieffer theory, cadmium telluride, optical filter design, nanotechnology, advanced material, organic semiconductor material, thin-film application, defect electronics science, optical device, gallium arsenide semiconductor, surface effect, Zener breakdown, semiconductor wafer, ultraviolet spectroscopy, semiconductor processing equipment, optical thin film, non-linear optics, hybrid integrated circuit, excimer laser, crystalline structure