J. Earl Rudisill1
J. Earl Rudisill
J. Earl Rudisill
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J EARL RUDISILL
2 Verona Lane
Foothill Ranch, CA 92610
(949) 830-8058 e-mail address
Ph.D. - Physics, University of Southern California
M.S. - Physics, University of Southern California
B.S. - Physics, University of Maryland
EMPLOYMENT AND EXPERIENCE HISTORY:
Newport Corporation Feb 05 – Jan 14
In all aspects relating to optical coating technology, including: coating materials, designs, deposition techniques, process control, characterization metrology, manufacturing, etc. for optical components over the spectral range from the deep-ultraviolet (157nm) through the far infrared (15um). Emphasis in high power lasers for industrial cutting / welding and high power laser for computer chip manufacturing.
Principal Scientist Jun 00 – Jan 05
Responsibility: The direction and development of state-of-the-art optical coatings. for application in the microlithography (computer chip systems). This development effort was primarily focused in the deep ultraviolet wavelength region for Argon Fluoride (193nm) and Fluorine (157nm) excimer lasers systems. High reflectance mirrors were successfully manufactured for laser projection application for microlithography chip production. These optical coatings survived, with no degradation in performance, lifetimes exceeding 20 billion 193nm laser pulses.
STAR OPTICS Inc. Jun 96 – May 00 Founder and President
Responsible for business administration with the aerospace industry (TRW, Lockheed Martin, and Boeing) and the technical leadership in the production of very low absorption (VLA) optical coatings for high power cw IR chemical laser in application for both spaced-based and ground based Directed Energy Weapons systems. In particular, this technology (light weight uncooled optics) led to the reduction in weight (factor of 10), delivery time (factor of 2) and cost (factor of 7) for the launching of a space based laser satellite missile defense system.
LASER POWER CORPORATION Feb 81 – May 96
Vice President, Optical Coating Technology
Responsible for the company’s optical thin film coating technology activities, which were directed through department heads. and brought the ability to produce low absorption, state-of-the-art optics for high-power infrared CO2 laser application. Provided the technical leadership necessary for the design and development of optical components (throughout the ultraviolet-visible-infrared spectral regions). This included: (1) responsibility for technical liaison with the military, aerospace corporations and industrial laser manufacturers for current problems and future needs in the development of optical components and (2) the development of optical coatings for solid state laser frequency doubling systems for laser projection, display and telecommunication applications.
HUGHES RESEARCH LABORATORIES Jul 72 – Jan 81
Head of the Thin Films Section
Senior Staff Physicist
Directed basic research and development on the optical properties of thin film coatings for application in the (2 – 15)um IR spectral region. Acted as program manager, principal investigator and technical consultant on numerous government sponsored (DARPA, Navy, Air Force) high energy laser programs. This work included: the design, material processing, fabrication and evaluation / characterization of optical coating structures to provide anti-reflection, high reflectance, beamsplitting, dichoric, etc. performance in optical components for high power IR laser. Coating materials and their designs developed during this tenure are today’s standards for several cw high-energy laser systems, particularly for CO2 industrial laser application.
LA MIRADA SCHOOL DISTRICT Sep 70 – Jun 71
High School Math Teacher (Algebra 1 – Pre-calculus)
UNIVERSITY OF SOUTHERN CALIFORNIA Jun 70 -- Aug 70
Visiting Professor (Physics): Taught pre-med physics
UNIVERSITY OF SOUTHERN CALIFORNIA Sep 63 – Aug 70
Graduate Student Physics
PHILCO FORD RESEARCH LABS Sep 61– Sep 63
THE FRANKLIN INSTITUTE RESEARCH LABS Sep 59 – Sep 61
Dr. Rudisill has authored over 40 technical publications in the areas of optical coating technology, optical and mechanical properties of thin films and magnetic properties of thin alloy films. These publications in particular include the design, surface preparation, process control, fabrication and characterization of optical components for high power laser application. He is internationally recognized for his work in the field of very low absorption optical coatings for high power laser. In addition, over a dozen papers have been published in limited distribution proceedings with the government sponsored “High Power Infrared Laser Window Materials Conference”. He was elected to Sigma Pi Sigma (Physics Honorary) and is a member of the Optical Society of America.
Absorption measurement of high-reflectance coated mirrors at 193 nm with a Shack-Hartmann wavefront sensor, with Byungil Cho and Edward J. Danielewicz, Optical Engineering (2012).
Laser induced damage threshold of 266 nm AR coatings with different coating designs, with Byungil Cho and Edward J. Danielewicz, SPIE (2010).
193 nm laser induced spectral shift in HR coated mirrors with Byungil Cho and Edward J. Danielewicz, Boulder Damage Symposium, SPIE (2009).
Determination of scattering losses in ArF* excimer laser all-dielectric mirrors for 193 nm microlithography applications, with Angela Duparre and Sven Schroeder Boulder Damage Symposium, SPIE (2004).
Design/deposition process tradeoffs for high - performance optical coatings in the DUV spectral region, Boulder Damage Symposium, Laser-Induced Damage in Optical Materials, SPIE (2003).
Design, Fabrication and Testing of Large Airborne ZnSe Windows, with C.J. Prusznski, W.M. Ford, W.R. Stark and G.R. Anderson II, Conference on Optical Manufacturing and Testing, SPIE (1995).
Deuterium-Fluoride Uncooled Optics at HELSTF, with A.R. Marrujo, C. Lieto and P. Pomphrey, Conference on Advanced Materials for Optics and Precision Structures, SPIE (1997).
Ultra Low Absorption Coatings for Mid-infrared cw Lasers, Conference on Optical Interference Coatings, SPIE (1994).
Bringing Optics for Industrial CO2 Lasers into Focus, with P. Muys, Industrial Laser Review (1993).
Polarization Phase Control Coatings for ALI ROMA Program, with C. Lieto, B. Field and W.Q. Jeffers, Conference on Military Optics, SPIE (1993).
Thin film coatings for Improved IR detector performance, Conference on Infrared Thin Films: Critical Reviews, with H. Nguyen, SPIE (1991).
Optical Coatings for High Power Lasers, Opto Elektronic Magazin (1990).
Optics for Industrial CO2 Lasers, with G.H. Sherman and E.J. Danielewicz, Lasers & Optronics (1988).
Optical Monitoring of Non-quarterwave Film Thicknesses Using a Turning Point Method, with B.L. Bobbs, Applied. Optics (1987).
Latest Optics for Industrial CO2 Lasers, with G.H. Sherman, E.J. Danielewicz and P.C. Baker, Conference on Laser Materials Processing – Science and Applications (1987).
Coatings for High-Power Excimer Lasers, with E.J. Danielewicz, Lasers & Applications (1987).
High Performance Dichroic Beamsplitters for DF Chemical Lasers, with B. Garcia, B.L. Bobbs and M. Braunstein, Applied Opt. (1980).
Low-loss Antireflection Coatings for DF Chemical Lasers, with J.A. Harrington and M. Braunstein Applied Opt. (1979).
Thin Film 2.8-um and 3.8-um Absorption in Single-Layer Films, with J.A. Harrington and M. Braunstein, Applied Opt. (1978).
A Comparison of UHV and Conventional Vacuum-Deposited Optical Coatings, with D. Zuccaro and M. Braunstein, High Power Laser Window Materials Conference (1977).
Coating Materials Evaluation for HF Laser Optical Components, with J.A. Harrington and J.L. Bowers High Power Laser Window Materials Conference (1977).
AR Coatings for 2 to 6 mm Fluoride Windows, with J.A. Harrington and M. Braunstein, High Power Laser Window Materials Conference (1977).
Measuring the Infrared Absorption in Thin Film Coatings, with J.A. Harrington and M. Braunstein Applied Opt. (1977).
Bulk and Surface Calorimetric Measurements at CO Wavelengths, with S.D. Allen Applied Opt. (1977).
Dichroic Mirrors for High Energy DF Lasers, with B. Garcia, B. Bobbs and M. Braunstein, High Power Laser Window Materials Conference. (1976).
A New Technique for Measuring the Infrared Absorption in Thin Film Coatings, with J.A. Harrington and M. Braunstein, High Power Laser Window Materials Conference (1976).
Analysis of Coatings on Window Materials, with A.I. Braunstein and M. Braunstein, High Power Laser Window Materials Conference (1976).
Dichroic Components for High Energy CO2 Lasers, with M. Braunstein and A.I. Braunstein, Asilomar Conference (1975).
Low Absorption Antireflection Coatings for KCL, with M. Braunstein, D. Zuccaro and A. Braunstein, High Power Laser Window Materials Conference (1975).
Coating Materials for Chemical Laser Windows, with A. Braunstein and M. Braunstein, High Power Laser Window Materials Conference (1975).
Antireflection Coatings for CaF2 Laser Windows Operating at 5.3 mm, with M. Braunstein and J. Bowers, High Power Laser Window Materials Conference (1975).
Optical Coatings for High Energy ZnSe”, Laser Windows, with M. Braunstein and A.I. Braunstein Applied Opt. (1974).
Polishing and Coating for Large Diameter (15 cm) High Energy ZnSe Laser Windows and Coatings for Alkali Halide Windows, with M. Braunstein, High Power Laser Window Materials Conference (1974).
Pulsed C02 Laser Damage in Windows Reflectors, and Coatings, with V. Wang, C. Giuliano, M. Braunstein, and A. Braunstein, Proceedings of the Laser Induced Damage in Optical Materials Symposium, NBS Special Publication (1974).
Pulsed C02 Laser Damage Studies of Windows and Window Coatings, with A.I. Braunstein, V. Wang, M. Braunstein and J. Wada , Proceeding of the Laser Induced Damage in Optical Materials Symposium, NBS Special Publication (1973).
Pulsed C02 Laser Damage Studies of Metal and Dielectric Coated Mirrors, with V. Wang, A. Braunstein, M. Braunstein, and J. Wada, Proceedings of the Laser Induced Damage in Optical Materials Symposium, NBS Special Publication (1973).
Optical Coatings for High Energy ZnSe Laser Windows, with A. Braunstein and M. Braunstein, Proceedings of the Laser Induced Damage in Optical Materials Symposium, NBS Special Publication (1973).
Optical Coatings for High Energy IR Laser Windows, with A. Braunstein, and M. Braunstein, Proceedings of the Laser Induced Damage in Optical Materials Symposium, NBS Special Publication (1972).
Observation of Plasma Resonance at 790 A in Reflectance from Thin Zirconium Films, with A. Matsui and G.L. Weissler, Optics Communications `(1970).
A Vacuum Spark Light Source for the Extreme Ultraviolet Region, with N. Wainfan, Applied Opt. (1969).
Faraday Rotation and Hysteresis Properties of Ferrite Thin Films, with M.H. Francombe and R.L. Coren, Proceedings of the Eighth Symposium on Magnetism and Magnetic Materials, J. Applied Phys. (1963).
Unidirectional Hysteresis in Thin Permalloy Films, with W.D. Doyle and S. Shtrikman, Proceedings of the Seventh Symposium on Magnetism and Magnetic Materials, J. Applied Phys. (1962).
Angular Dependence of Torque in Anisotropic Permalloy Films, with W.D. Doyle and S. Shtrikman, Proceedings of the International Conference on Magnetism and Crystallography, J. Phys. Soc. (1962.)