David Eimerl, Ph

David Eimerl, Ph.D./ Page 1 ______4042 Camrose Avenue, Livermore, CA 94551-8284 (925)-371-5364

SUMMARY

Chief Scientist, Laser Science and Technology Program, Lawrence Livermore Nat’l Lab

25 Years hands-on experience in laser science and related technologies, especially those related to IFE, DOD requirements and space debris mitigation

30 years experience developing advanced scientific software for many applications, including basic science, instrument control and system optimization

Business Analyst – “From Drawing Board to Successful Product”

142 Publications

Excellent communication skills, verbal and written

Effective Project Management

AREAS OF TECHNICAL EXPERTISE

Laser Science, Laser hardware, Laser Systems, all types of lasers

High Average Power Lasers

Atmospheric Propagation, Targeting and Beam Control

Nonlinear Optics, Frequency conversion, Raman Scattering

Laser-Materials interactions

Semiconductor devices, design and manufacturing, Diode Lasers, LED’s

Laser Dermatology, Laser Surgery

Wafer processing, lasers and optics for wafer processing

Algorithms, for signal analysis and hardware control

Custom scientific software:

laser system simulation and optimization specialized diffractive optical systems, waveguides and optical scattering plasma physics and fluid mechanics advanced laser-tissue interactions for medical applications

C/C++, Fortran, MPI, VB, Java, HTML, etc

Resume may be obtained from www.eimexinc.com/LogosTech/David_Eimerl_Resume.doc David Eimerl, Ph.D./ Page 2 ______

Curriculum Vitae

01/09–present President, Forensic Expert Witness Association

San Francisco Chapter of Educational Association

2002-2009 Treasurer and Director, PATCA

Fiduciary responsibility, leadership and director of website development for PATCA, an organization of consultants

2005-2007 Technical Advisory Board, Ultratech Corporation, San Jose, CA

*Services such as a VP for Marketing and Technical Development might provide *Technical guidance and design for wafer processing instruments

2001-2009 Technical Advisory Board, Reliant Corporation, Palo Alto, CA

*Consulting as VP for Marketing and Development *Technical Guidance in respect to Laser Surgical Instruments *Laser Safety

07/02-present EIMEX , Livermore, CA www.eimexinc.com

President

 Laser system optimization, requirements documents, and cost optimization  Business planning and development: from the drawing board to a successful product  IP Protection and strategy  General consulting in laser science and technology, medical laser products, wafer processing products  Custom scientific software and analysis for product design and optimization  Technical Training at all levels for commercial clients

“The EIMEX edge: Powerful Solution in Lasers and Optics” David Eimerl, Ph.D./ Page 3 ______

04/01 – 6/02 Gemfire Corporation Fremont, California

Director, Advanced Laser Applications, Corporate R&D  Managed a multi-disciplinary team developing new product concepts in optical chip technologies using waveguides, diode lasers and optical fiber technology.  Responsible for coordinating all modeling and analysis within corporate R&D  Developed computer models of optical dynamics of optical components on optical chips, such as diode lasers, optical waveguides and passive optical elements. Verified the models experimentally.  Innovated several new product concepts involving compact integrated optical elements and initiated projects to test and validate them.  Built up a successful planar array grating fabrication facility.

Laser Safety Officer  Responsible for maintaining safety in laser laboratories

12/76 – 04/01 Lawrence Livermore National Laboratory Livermore, California

Deputy Program Manager, Extreme UV Lithography Program, 2000-01  Management of a multi-disciplinary program in soft-X-ray projection lithography, $5m/yr  Project manager for advanced IBD systems  Project manager for advanced soft-X-ray sources  Initiated project studying approaches to improving the performance of wafer inspection systems

Program Manager, New Business Development, 1997 -2000  Successfully developed US DoD funding for joint R&D program with Raduga, Russia in laser weapon technologies  Successfully captured congressional funding for space debris mitigation  Managed a Landmine Eradication Project 1997-1998  Evaluated potential for using Laboratory laser expertise in laser medicine

Scientific Editor, Science and Technology Review 1997-1998  Scientific editor for this Laboratory-wide monthly publication showcasing the Laboratory’s programs to the general public, as well as other Government Agencies and the University of California Laboratory Oversight Committee.

Chief Scientist, Laser Science and Technology, 1994 – 1997  Scientific review and oversight of all technical projects in this large laser development program. Projects included MegaJoule UV lasers for fusion (NIF), short pulse laser technology and applications, high average power lasers, laser weapons, laser system design and performance optimization, laser oscillators, nonlinear optics and frequency conversion, laser damage studies and beam smoothing, diode laser arrays.  Successfully led a task force on NIF laser system design for the direct-drive approach to laser- driven nuclear fusion. The results were widely used for long-range planning in the national DoE’s Laser Fusion Program. David Eimerl, Ph.D./ Page 4 ______

 Based on my unique breadth of knowledge spanning both the science and technology of lasers, and the science underlying laser-driven nuclear fusion target response, had the primary responsibility from within the laser division for developing the laser requirements for a successful campaign in target science. Worked very closely with fusion target scientists.

Deputy Program Leader, Laser Science and Technology, 1993 – 1997  Management of a large multi-disciplinary program, $40m/year, 150 FTE. Jointly responsible with the program leader for managing budgets, schedule and manpower, and technical planning  Concurrently, Chief Scientist of this program  Primary contact with other laboratories involved in fusion laser development

Associate Program Leader, 1983 – 1993  Built a world-class team in nonlinear optical frequency conversion. This group invented several new nonlinear materials and new designs for devices, and was published widely.  Published a seminal paper on High Average Power Harmonic Generation.  Designed and demonstrated the world’s first Pockels cell capable of operating at over 1 kW of average power. This was three orders of magnitude better than the current state of the art.  With a group member, developed an award-winning state-of-the-art optical microscope technique for measuring all three refractive indices of 100-micron-size micro-crystals of fully biaxial materials over the entire visible spectrum.  Managed a laser damage group that developed advanced methods for studying laser damage and crystal growth. This group successfully raised the laser damage limit for certain nonlinear materials by over factor of two.  Management and oversight of a 100 Joule, 1 ns laser that was the primary facility for experiments in beam propagation and nonlinear optics. Design and prioritization of experiments, and data analysis.  Initiated a program in applications of nonlinear optics in waveguides.  Carried out studies of frequency mixing for a variety of defense applications.

Staff Scientist, 1976 – 1983  Carried out modeling in several areas, including: Stimulated Raman and B rillouin Scattering in gases, Raman/Brillouin pulse compressors, KrF laser dynamics and performance, Nd:Glass laser dynamics and performance, harmonic generation in KDP, other nonlinear frequency conversion, phase conjugation, laser materials, nonlinear optical materials, average power Pockels cells, fundamental quantum physics applied to laser science, X-ray lasers and Gamma-ray Lasers.

6/73 – 11/76 Post-Doctoral Scientist, UCSD and Staff Scientist, Physical Dynamics San Diego, California

Research Scientist  R&D in fundamental science, in cosmology and gravitation, and quantum electrodynamics  R&D relating to defense applications of electron beam technology David Eimerl, Ph.D./ Page 5 ______

EDUCATION Ph.D. Northwestern University (1973) Theory: sub-nuclear physics and scattering M.A. Oxford University UK (1969) Summa Cum Laude, Physics

MEMBER Forensic Expert Witness Association IEEE Optical Society of America Professional and Technical Consultants Association

ADDITIIONAL TRAINING Laser safety high power lasers Laser safety fiber optic systems Construction/Outfitting of laser laboratories Management Presentations

David Eimerl, Ph.D./ Page 6 ______

PATENTS and PATENT APPLICATIONS Document (US signifies Document Title issued patent) 4697100 Deuterated L-arginine phosphate monohydrate The new crystal deuterated l-arginine phosphateDavid monohydrate Eimerl, provides Ph.D./ an excellentPage 7 frequency conversion crystal for laser______applications, especially in the one micron wavelength region. 11986659 POP Monitor and Apparatus for Customer Engagement A method is presented for increasing sales in retail stores by inducing the customer to interact with a product that attracts their interest, even if that interest is minimal or transient. The method utilizes a display monitor…. 5264959 Temperature-insensitive phase-matched optical harmonic conversion crystal Temperature-insensitive, phase-matched harmomic frequency conversion of laser light at a preferred wavelength of 1.064 microns can be achieved by use of a crystal of deuterated l-arginine... 6330256 Method and apparatus for non-dispersive face-cooling of multi-crystal nonlinear optical devices A face-cooling scheme is used with multiple nonlinear crystal formats used primarily for second harmonic generation without the need for air-path rephasing between the crystals. Birefringent... US20040082940 Dermatological apparatus and method A dermatological laser apparatus in accordance with the present invention may comprise a plurality of laser light sources, a corresponding plurality of optical delivery pathways, and a focusing... US20050278002 Adaptive control of optical pulses for laser medicine Tissue is treated by irradiating it with a sequence of optical pulses that are directed in sequence to various sites on the tissue. During the irradiation sequence, one or more tissue properties... 6775053 High gain preamplifier based on optical parametric amplification A high-gain preamplifier based on optical parametric amplification. A first nonlinear crystal is operatively connected to a second nonlinear crystal. A first beam relay telescope is operatively... 6791743 High average power scaling of optical parametric amplification through cascaded difference-frequency generators A first pump pulse and a signal pulse are injected into a first optical parametric amplifier. This produces a first amplified signal pulse. At least one additional pump pulse and the first... US20050049582 Method and apparatus for fractional photo therapy of skin A method and apparatus for providing fractional treatment of tissue (e.g., skin) using lasers is disclosed. The method involves creating one or more microscopic treatment zones of necrotic tissue... 6873454 Hybrid chirped pulse amplification system A hybrid chirped pulse amplification system wherein a short-pulse oscillator generates an oscillator pulse. The oscillator pulse is stretched to produce a stretched oscillator seed pulse. A pump... 6741388 Coherent white light amplification A system for coherent simultaneous amplification of a broad spectral range of light that includes an optical parametric amplifier and a source of a seed pulse is described. A first angular... 6633594 Method for changing a wavelength of a laser light The efficiency of wavelength conversion of laser light can be improved by allowing incident laser light to pass through nonlinear optical crystals a multiple of times. In converting the wavelength... 4510402 Optical harmonic generator A pair of uniaxial birefringent crystal elements are fixed together to form a serially arranged, integral assembly which, alternatively, provides either a linearly or elliptically polarized... 6344039 Device for eliminating parallax of stereo microscopes during refractive laser surgery A device for eliminating decentration error due to parallax during ophthalmic laser surgery comprises a stereo microscope having a first ocular and a second ocular and an objective lens for viewing... David Eimerl, Ph.D./ Page 8 ______

Publications

(1) “General Relativistic Interior Metric for a Stable Charged Matter Fluid with Large e/m”, D. Eimerl and M. Bailyn, Phys. Rev D5, 1897, 1972

(2) “Estimation of the Vacuum SU(3) Breaking in the (3*,3) + (3,3*) Model”, D. Eimerl and D.T.Cornwell, Nucl. Phys. B49, 61 (1972)

(3) “Are Second Class Current Present in Hyperon Beta Decay?”, D. Eimerl, Phys. Rev. D9, 2650 (1974)

(4) “Charge Symmetry and Electromagnetic Corrections to  ->  e  Decay”, D. Eimerl, Phys Rev D9, 3105 (1974)

(5) “q2-independence of the F/D ratios in Matrix Elements of the Axial Vector Currents between Baryon Octet States”, D. Eimerl, Phys. Rev D10, 1550, (1974)

(6) “On Relativistic Thermodynamics”, D. Eimerl, Ann. Phys. 91, 481, (1975)

(7) “Infrared Divergence of Quantum Electrodynamics at Finite Temperature”,D. Eimerl, Phys. Rev D12, 427 (1975)

(8) “High Momentum Transfer Atomic Collisions”, D.Eimerl, Phys. Rev. A14, 2061 (1976)

(9) “Nonexistence Theorem for Sphericdally Asymmetric Solutions of the Thomas-Fermi Model of Atoms and Molecules”, D. Eimerl, J. Math. Phys. 18, 106 (1976)

(10) “Effective Photon Theory: A Critical Analysis”, D. Eimerl, Phys. Rev. Lett. 39, 18 (1977)

(11) “Enhanced Stimulated Raman Scattering Does Not Exist”, D. Eimerl, Phys. Rev. Lett. 40, 934 (1978)

(12) “Coherence Oscillations in Nonlinear Media and the Lifetime of a Coherent State”, D. Eimerl, Opt. Comm. 25, 277, (1978)

(13) “Large Signal Gain and Intensity Enhancements in a Backward Raman Amplifier”, D. Eimerl, J.R.Murray, J. Goldhar, and A. Szoke, Appl. Phys. Lett 33, 399 (1978)

(14) “Permutation Symmetry, Crossing Symmetry, and the CPT Invariance of Quantum Electrodynamics”, D. Eimerl, Phys. Rev. A19, 816 (1979)

(15) “Raman Pulse Compression of Excimer Lasers for Application to Laser Fusion”, J.R. Murray, J. Goldhar, D. Eimerl, and A. Szoke, IEEE J. Quant. Electr. QE-15, 342 (1979)

(16) “Bounds on Stimulated Raman Scattering”, D. Eimerl, Phys. Rev A20, 369 (1979)

(17) “Theory of Temporal Stochasticity in Stimulated Raman Scattering in Dispersionless Media”, D. Eimerl, J. Math. Phys. 20, 1811 (1979) David Eimerl, Ph.D./ Page 9 ______

(18) “Scaled Raman Pulse Compression Experiments at 248 nm”, R.R.Jacobs, J. Goldhar, J.R. Murray, D. Eimerl, and S.B.Brown, IEEE Topical Meeting in Excimer Lasers , Charleston SC, paper ThA5/1-4 (1979)

(19) “Injection Locking of a 25 J KrF Oscillator”, R. Rapoport, D. Eimerl, J.C.Swingle, J.J.Ewing, IEEE Topical Meetinng in Excimer Lasers, Charleston SC, paper TuB4/1-3 (1979)

(20) “Efficient Short Pulse Lasing of KrF”, J.C.Swingle, L.Schlitt, R. Rapoport, D. Eimerl, J.J.Ewing, IEEE Topical Meeting on KrF Lasers, paper TuB3/1-3 (1979)

(21) “RAPIER – An Optical Pulse Compressor”, D.Eimerl, J.J.Ewing, J. Goldhar, R.R. Jacobs, J.R.Murray, R. Rapoport, L.Schlitt, J.C.Swingle, EO/LASE ’79, Anaheim, CA, USA (1979)

(22) “Inhomogeneously Pumped Stimulated Raman Scattering”, D. Eimerl, International Conference on Lasers, Orlando FL, (1978), Proceedings, STS press, 333 (1979)

(23) “Optical Extraction Characteristics of Homogeneously Broadened Lasers with Nonsaturating Losses”, D. Eimerl, J. Appl. Phys 51, 3008 (1980)

(24) “High Efficiency Energy Extraction in Backward Wave Raman Scattering”, R.R.Jacobs, J. Goldhar, S.B.Brown, J.R.Murray and D. Eimerl, Appl. Phys. Lett. 37, 264 (1980)

(25) “Pulse Shape Effects in Raman Compressors”, D. Eimerl, J. Appl. Phys. 51, 5642 (1980)

(26) “Broadband Conversion of Fusion Lasers”, D. Eimerl, J.R.Murray and J.F.Holzrichter, CLEOS/ICF ’80, San Diego, CA (1980)

(27) “Second Stokes Suppression in Raman Compressors: A Review”, D. Eimerl, CLEOS/ICF ’80, San Diego, CA (1980)

(28) “High-Efficiency Energy Extraction in Raman Pulse Compression Studies at 248 nm”, R.R.Jacobs, J.R.Murray, D. Eimerl, J.J. Ewing, CLEOS/ICF ’80, San Diego, CA (1980)

(29) “Efficient Narrowband Extraction from KrF pumpede by Opposed E-beams”, W.R.Rapoport, J.C.Swingle, D. Eimerl, J.J.Ewing, CLEOS/ICF ’80, San Diego, CA (1980)

(30) “Intensification of Rare Gas Halide Lasers with Application to Laser Fusion”, R.R.Jacobs, D.Eimerl, J.Goldhar, J.R.Murray, W.R.Rapoport, L.Schlitt, J.C.Swingle, European Conference on Optical Systems and Applications, Utrecht, Netherlands (1980)

(31) “Aperture Scaling of Rare-Gas Halide Lasers: A Multidimensional Optical Control Analysis”, D. Eimerl, CLEOS/ICF ’80, San Diego CA (1980)

(32) “Efficient Frequency Conversion by Stimulated Raman Scattering”, D. Eimerl, R.S.Hargrove, and J.A.Paisner, Phys. Rev. Lett. 46, 651 (1981)

(33) “Effective Photon Theory and Photon-Photon Scattering”, D. Eimerl, J.Quant. Spectr. Rad. Transfer 19, 473 (1981)

(34) “Two-Color Frequency Conversion System for High Power Lasers” M.A.Summers, R.D.Boyd, D.Eimerl, E.M.Booth, CLEO Conference on Lasers and Electrooptics, 30 (1981) David Eimerl, Ph.D./ Page 10 ______

(35) “Intensification of Rare Gas Halide Lasers with Applications to Laser Fusion”, R.R.Jacobs, J.Goldhar, J.R.Murray, D.Eimerl, W.R.Rapoport, L.Schlitt, and J.C.Swingle, Opt.Eng.(USA) 20, 777 (1981)

(36) “NOVA Frequency Conversion System”, M.A.Summers, L.G.Seppala, F. Reinecker, D.Eimerl and B.C.Johnson, 9th Symposium on Engineering Problems of Fusion Research, IEEE Proceedings, 1256 (1981)

(37) “Testing and Optimization of an Active Rotary Flux Compressor”, B.M.Carder, D.Eimerl, E.J.Goodwin, J.Trenholme, R.J.Foley, W.L.Bird, IEEE International Pulsed Power Conference, Albuquerque, NM (1981)

(38) “Large Aperture Harmonic Conversion Experiments at the Lawrence Livermore National Laboratory”, G.J.Linford,B.C.Johnson,J.S.Hildum, W.E.Martin, K.Snyder,R.D.Boyd, W.L.Smith, C.L.Vercimak,D.Eimerl and J.T.Hunt, Appl.Opt. 21, 3633 (1982)

(39) “The Rotary Flux Compressor – A New High Power Compact Energy Store”, B.Carder, D.Eimerl, and W.L.Bird, IEEE Conference Record of the 1982 15th Pulsed Power Modulator Symposium 323 (1982)

(40) “High Power Lasers for Fusion Applications”, J.F.Holzrichter, D.Eimerl, E.V.George, J.B.Trenholme, W.W.Simmons, and J.T.Hunt, J. Fusion Energy 2, 5-45 (1982)

(41) “Computer Design and Optimization of the Active Rotary Flux Compressor” ,D.Eimerl and E.J.Goodwin, Lawrence Livermore National Laboratory Report UCRL 53472, December 1983

(42) “Thin-Thick Quadrature Frequency Conversion”, D.Eimerl, Lasers ’84, San Francisco CA (1985)

(43) “High Average Power Harmonic Generation” D.Eimerl, 5th IEEE/OSA Conference on Lasers and Electrooptics, Baltimore MD (1985)

(44) “New Harmonic Generation Materials – Index Engineering”, D.Eimerl, Lasers ’84, San Francisco0 CA (1985)

(45) “White paper on nanocomposites as harmonic generation media”, DEimerl, SVelsko, DOE report 1995

(46) “Design and Performance of the NOVA Frequency Conversion System”, M.A.Summers, J.D.Williams, B.C.Johnson, and D.Eimerl, OSA/IEEE 1985 Conference on Lasers and Electrooptics, Baltimore MD (1985)

(47) “Harmonic Generation at High Peak Power”, M.A.Summers, J.D.Williams, B.C.Johnson and D.Eimerl, Los Angeles Symposium on and Exhibition on Optical end Electrooptical Engineering, Los Angeles, CA (1986)

(48) “Sellmeier Constants and Related Data for KTP”, D.Eimerl, Workshop on Nonlinear Materials, Annapolis MD (1986)

(48) “New Frequency Conversion Materials for High Power Lasers”, S.Velsko and D.Eimerl, Los Angeles Symposium on and Exhibition on Optical end Electrooptical Engineering, Los Angeles, CA (1986)

(10) “Evaluation of LAP and d-LAP as Frequency Conversion Materials for High Power Lasers”,OSA/IEEE International Quantum Electronics Conference (IQEE 86), Sna Francisco, CA (1986)

(51) “Frequency Conversion Materials from a Device Perspective”, D. Eimerl and L.G.deShazer, Laser and Nonlinear Optical Materials, San Diego, CA, SPIE vol 681, 2 (1986) David Eimerl, Ph.D./ Page 11 ______

(52) “Precise Measurement of Optical Dispersion using a New Inhterferometric Technique”, S.Velsko and D.Eimerl, Appl.Opt. 25, 1344 (1986)

(53) “Trithallium Phosphate, an Optical Second Harmonic Generator”, A. Zalkin, D.H.Templeton, D.Eimerl and S.Velsko, Acta Crystallogr. C42, 1868, (1986)

(54) “New Frequency Conversion Materials for High Power Lasers”, S.Velsko and D.Eimerl, Proceedings SPIE Int. Soc. Opt. Eng.(USA), 622, 151 (1986)

(55) “Synthesis and Characterization of Chemical Analogs of L-Arginine Phosphate”, S.B.Monaco, L.E.Davis, S.P.Velsko, F.T.Wang, D.Eimerl, and A. Zalkin, American Conference on Crystal Growth Monterey, CA (1987)

(56) “Thermal Fracture in Selected Nonlinear Optical Materials”, D.Eimerl, J.Marion, E.K.Graham, S.Guch, J. Eggleston, OE/LASE ’87, SPIE vol 736, 178 (1987)

(57) “Organic Nonlinear Crystals and High Power Frequency Conversion”, S.P.Velsko, L.Davis, F.Wang, S.Monaco, D.Eimerl, S.Musikant, SPIE vol 824, 178 (1987)

(58) “Characterization of Barium Borate for Average Power”, D.Eimerl, S.Velsko, J.Marion, L.Davis, E.K.Graham, OSA Conference on Lasers and Electrooptics, Baltimore MD (1987)

(59) “Linear Dielectric Susceptibility of Transparent Solids”, S.P.Velsko, L.E.Davis, and D.Eimerl, and, Materials Research Society, 1987 Fall Meeting, Boston, MA(1987)

(60) “Optical Characterization of Microcrystals”, L.Davis, D.Eimerl and S.P.Velsko, Am Conf on Crystal Growth, Monterey, CA (1987)

(61) Opening remarks on Optical Materials, D. Eimerl, Materials Research Society 1987 Fall Meeting, Boston MA

(62) “A Novel Injection and Switchout Scheme for Multipass Laser Amplifiers”, D.Eimerl, IEEE J. Quant.Elec.QE-23, 407, (1987)

(63) “High Average Power Harmonic Generation”, D.Eimerl, IEEE J. Quant. Elec. QE-23, 575 (1987)

(64) “Potential for efficient frequency conversion at high average power using solid state nonlinear optical materials”, D Eimerl NASA STI/Recon Technical Report N, 1985

(65) “Amplified Spontaneous Emission in Cassegrainian Amplifiers”, D.Eimerl, Applied Optics 26, 1594 (1987)

(66) “Electro-optic, Linear and Nonlinear Optical Properties of KDP and its Isomorphs”, D.Eimerl, Ferroelectrics 72, 95 (1987)

(67) “Inorganic Nonlinear Materials for Frequency Conversion”, A.A.Ballman, R.L.Byer, D.Eimerl, R.S.Feigelsen, B.J.Feldman, L.S.Goldberg, N.Menyuk, and C.L.Tang, Applied Optics 26, 224 (1987) David Eimerl, Ph.D./ Page 12 ______

(68) “Optical, Mechanical and Thermal Properties of Barium Borate”, D.Eimerl,, L.Davis, S.Velsko, E.K.Graham, and A.Zalkin, J. Appl.Phys 62, 1968

(69) “Quadrature Frequency Conversion”, D.Eimerl, IEEE J.Quant. QE-23, 1361, (1987)

(70) “Second Harmonic Generation in Sodium Lanthanum Fluoride”, S.Velsko and D.Eimerl, J.Appl.Phys.62, 2461 (1987)

(71) “Frequency Conversion Materials from a Device Perspective”, D.Eimerl, SPIE Proceedings vol 681, 2 (1986)

(72) “Synthesis and Characterization of Chemical Analogs of l-Arginine Phosphate”, S.B.Monaco, L.E.Davis, S.P.Velsko, F.T.Wang, D.Eimerl and Z.Zalkin, Journal of Crystal Growth 85, 252 (1987)

(73) “Crystal Symmetry and the Electrooptic Effect”, IEEE J.Quant. Electr. QE-23, 2104 (1987)

(74) “Thermal Aspects of High Average Power Electrooptic Switches”, D.Eimerl, IEEE.J.Quant. Electr. QE- 23, 2238 (1987)

(75) “Thermal Fracture in Selected Nonlinear Optical Materials”, D.Eimerl, J.Marion, and E.K.Graham, SPIE Proceedings vol 736, 54 (1987)

(76) “Organic Nonlinear Crystals and High Power Frequency Conversion”, S.P.Velsko, L.E.Davis, F.Wang, and D.Eimerl, SPIE Proceedings vol 824, 178, (1987)

(77) “Quantum Electrodynamics of Optical Activity in Birefringent Crystals”, D.Eimerl, J. Opt. Soc. Am. B5 , 1453 (1988)

(78) “Materials for Wavelength Conversion”, D.Eimerl, OE/LASE ’88, Los Angeles, CA (1988)

(79) “Nonlinear Materials for Frequency Conversion”, D.Eimerl, S.P.Velsko, OE/LASE ’88, Los Angeles CA (1988)

(80) “Frequency Conversion Devices for High Power Lasers”, D.Eimerl, OE/LASE ’88, Loa Angeles CA (1988)

(81) “Review of Nonlinear Otical Crystals for Frequency Conversion”, D.Eimerl, SPIE International Technical Symposium on Optical and Optoelectronic Applied Science and Engineering, San Diego CA (1988)

(82) “New Organic Materials for Efficient Harmonic Generation of Near Ultraviolet Light”, S.P.Velsko, L.E.Davis, F.Wang, D.Eimerl, SPIE Proceedings vol 971, 113, (1988)

(83) “Deeuterated l-Argnine Phosphate”, D.Eimerl, S.Velsko, L.Davis, F.Wang, G.Loiacono, G.Kennedy, CLEO ’88, OSA/IEEE Conference on Lasers and Electrooptics, Anaheim CA (1988)

(84) ”Diammonium Hexafluorozirconate”, A.Zalkin, D.Eimerl, and S.Velsko, Acta Crystall. C44, 2050, (1988)

(85) “Nonlinear Materials for Frequency Conversion”, S.P.Velsko, D.Eimerl, P.M.Fauchet, K.H.Guenther, SPIE Los Angeles CA, SPIE vol 895, 152 (1988) David Eimerl, Ph.D./ Page 13 ______

(86) “A Model for End-Point Detect during the Development of Photoresists”, M.P.C.Watts, Stephen Williams, Patrick McCarthy, Michael Tsai, and David Eimerl, SPIE Proceedings, vol 1087, 332 (1989)

(87) “The Structure of l-Arginine DiArsenate”, A. Zalkin, D.Eimerl, and S.Velsko, Acta Crystall. C45, 812, (1989)

(88) “Deuterated L-Argnine Phosphate : A new Efficient Nonlinear Crystal”, D.Eimerl, S.Velsko, L.Davis, F.Wang, G.Loiacono, and G.Kennedy, IEEE J. Quant, Electr. QE-25, 179, (1989)

(89) “Phase-Matched Three-Wave Mixing in L-Arginine Salts”, S.P.Velsko, L.Davis, F.Wang, M.Webb, D.Eimerl, OSA/CLEO ’89, Baltimore MD (1989)

(90) “Large Aperture,Transversely Excited, Thermally Compensated Electrooptic Switch for High Average Power Laser Systems”, L.F.Weaver, and D.Eimerl, OSA/CLEO ’89, Baltimore MD (1989)

(91) “One-KiloWatt Average Power KD*P Second Harmonic Generator”, M.Norton, D.Eimerl, S.P.Velsko, C.A.Ebbers, OSA/CLEO ’89, Baltimore MD (1989)

(92) “New Materials for High Average Power Electrooptic Switches”, C.A.Ebbers, and D.Eimerl, International Ceramic Science and Technology Congress, Anaheim CA(1989)

(93) “The Chemistry and Physics of Nonlinear Materials ; A New Look at an Old Field”, S.P.Velsko, and D.Eimerl, Optical Materials Processing and Science, Materials Research Society Symposium Proceedings, San Diego CA(1989)

(94) “Chiral Organic Crystals for High Power Frequency Conversion”, L.E.Davis, S.P Velsko, D.Eimerl, Materials Processing in Space, Chicago, Ill, (1989)

(95) “KD*P Frequency Doubler for High Average Power Applications”,Mary A. Norton, David Eimerl, Chris A. Ebbers, Stephan P. Velsko, Charles S.Petty, Solid State Lasers, Los Angeles CA 1990 SPIE proceedings 75, (1990)

(96) “Demonstration of Temperature-Insensitive Harmonic Generation in Deuterated l-Arginine Phosphate”, C.E.Barker, D.Eimerl, and S.P. Velsko, Conference on Lasers and Electrooptics, Ananheim CA (1990)

(97) “Progress in Nonlinear Optical Materials for High Power Lasers”, D.Eimerl, S.Velsko, L.Davis and F.Wang, Journal Crystal Growth and Characterization of Materials 20, 59 (1990)

(98) “MultiKiloWatt Pockels Cell for High Average Power Lasers”, L.F.Weaver, C.S.Petty, and D.Eimerl, J. Appl. Phys. 68, 2589 (1990)

(99) “Elastic Constants of d-LAP and AgGaSe2”, D.Eimerl, J.Marion, E.Graham, and H, HausHuhl, IEEE J. Quant. Electr. QE-27, 142 (1991)

(100) “Ultrathin Harmonic Generators”, D.Eimerl, IEEE J. Quant. Electr. QE-27, 2170 (1991)

(101) “Demonastration of Temperature-Insensitive Phase-Matching for Second Harmonic Generation in Deuterated l-Arginine Phosphate” , C.E.Barker, D.Eimerl and S.P. Velsko, J.Opt. Soc. Am. B8, 2481 (1991) David Eimerl, Ph.D./ Page 14 ______

(102) “High Bandwidth Second Harmonic Generation in Partially Deuterated KD*P”, M.S.Webb, D.Eimerl, S.P.Velsko, SPIE Symposium on Optics, Electrooptics, and Laser Applications in Science and Engineering, Los Angeles CA (1992)

(103) “Large Bandwidth Frequency-Converted Nd:Glass Laser at 527 nm with  = 2%”, D.Eimerl, D.Milam, and J.Yu, SPIE International Symposium on Optoelectronic Packaging and Interconnects, Laser Engineering and Biomedical Optics, Los Angeles CA(1992)

(104) “Wavelength-Insensitive Phase-Matched Second-Harmonic Generation in Partially Deuterated KDP”, Mark.S.Webb, David Eimerl, and Stephan Velsko, J. Opt. Soc. Am B9, 1118 (1992)

(105) “Ultrabroad Bandwidth for ICF Applications”, E.M.Campbell, D.Eimerl and W.Kruer, Comments in Plasma Physics 15, 85 (1993)

(106) “Phase Screens for Control of the Focal Irradiance of the NOVA Laser”, J.K.Lawson, S.N.Dixit, D.Eimerl, M.A.Henesian, K.R.Manes, A.J.Morgan, H.T.Powell, J.M.Thomas, J.B.Trenholme, B.W.Woods, OE/LASE ’93 Los Angeles CA (1993)

(107) “Non-linear Optical Properties of K2La(NO3)5.2H2O and K2Ce(NO3)5.2H2O”, Chris Ebbers, Laura E. Davis, Mark Webb, David Eimerl, Stephan Velsko, and Douglas Kessler, IEEE J.Quant. Electr. QE-29, 497 (1993)

(108) “Frequency Conversion of BroadBand Lasers”, D. Eimerl, SOQUE International Conference on Lasers ’93, Lake Tahoe, NV (1993)

(109) “Large Bandwidth Frequency-Converted Nd:Glass Laser with  = 2%”, D.Eimerl, D.Milam and J.Yu, Phys Rev. Lett 70, 2738 (1993)

(110) “Electrooptic Control of Correlations in Speckle Statistics”, S.Pau, S.N.Dixit, and D.Eimerl, J.Opt. Soc . Am. B11, 1498 (1994)

(111) “Temporal Dynamics of the Multi-Frequency Spectrum Generated by Self-Phase Modulation of Two- Frequencies in a Single-Mode Fiber”,D.M.Pennington, M.A.Henesian, C.G.Brown, P.M.Danforth, D.Eimerl SPIE Annual Conference of the Optical Society of America, Boston, MA (1994)

(112) “Novel Bandwith Source for Laser Fusion”, D.M.Pennington, M.A.Henesian, R.B.Wilcox, T.W.Weiland, D.Eimerl, H.T.Powell, IEEE Conference on Lasers and Electrooptics, Anaheim, CA (1994)

(113) “High Power Spectral and Spatial Beam Control using Self-Phase Modulation and a MultiSegment Monochromator”, R.Wilcox, D.M.Pennington, T.L.Weiland, and M.A.Henesian, IEEE/LEOS, Amsterdam, Netherlands (1994)

(114) “Perturbation Theory for Frequency Doubling and Tripling of Electric Field Amplitude and Phase Ripples”, J.M.Auerbach, D.Eimerl, J.T.Hunt, D.Milam, J.B.Trenholme, P.W.Milonni, Solid State Lasers for Application to Inertial Confinement Fusion, Monterey CA (1995)

(115) “Configuring NIF for Direct Drive Experiments”, D.Eimerl, J.E.Rothenberg, M.H.Key, Solid State Lasers for Application to Inertial Confinement Fusion, Monterey CA (1995) David Eimerl, Ph.D./ Page 15 ______

(116) “Illumination Uniformity Requirements For Direct Drive Inertial Confinement Fusion”, J.E.Rothenberg, D.Eimerl, M.H.Key, and S.V.Weber, Solid State Lasers for Application to Inertial Confinement Fusion, Monterey CA (1995)

(117) “Efficient Broadband Third Harmonic Generation via Angular Dispersion”, D.M.Pennington, M.A.Henesian, D.Milam and D.Eimerl, Solid State Lasers for Application to Inertial Confinement Fusion, Monterey CA (1995)

(118) “Phase Conjugation in Short Pulse MegaJoule Class Lasers”, D.Eimerl, M. Chernyak, M.I.Pergament, R.V.Smirnov, V.I.Sokolov, Solid State Lasers for Application to Inertial Confinement Fusion, Monterey CA (1995)

(119) “Measurement of the Bespalov-Talanov Gain Spectrum in a Dispersive Medium with a Large n2”,P.J.Wegner, M.D.Feit, A.J.Fleck Jr and D.Eimerl, Solid State Lasers for Application to Inertial Confinement Fusion, Monterey CA (1995)

(120) “Configuring the NIF for Direct Drive Experiments”, Lawrence Llivermore National Laboratory White Paper, April 1995

(121) “Gas-Filled Targets for Large Scale-Length Plasma Interaction Experiments at NOVA, with L.V.Powers etal, Physics of Plasmas 2, 2473 (1995)

(122) “Low Stimulated Brillouin BackScatter Observed from Large, Hot Plasmas in Gas-Filled HohlRaums”, with L.V.Powers etal, Phys Rev Lett 74, 2957 (1995)

(123) “Frequency Conversion modeling with spatially and temporally varying beams”, P.W. Milonni,J.M Auerbach, D.Eimerl, Proc. SPIE Vol. 2633, p. 230-241, Solid State Lasers for Application to Inertial Confinement Fusion (ICF), William F. Krupke; Ed., December 1995

(124) “Low Stimulated Brillouin Backscatter Observed from Large, Hot Plasmas in Gas-Filled Hohlraums” L. V. Powers, R. E. Turner, R. L. Kauffman, R. L. Berger, P. Amendt, C. A. Back, T. P. Bernat, S. N. Dixit, D. Eimerl, J. A. Harte, M. A. Henesian, D. H. Kalantar, B. F. Lasinski, B. J. MacGowan, D. S. Montgomery, D. H. Munro, D. M. Pennington, T. D. Shepard, G. F. Stone, L. J. Suter, and E. A. Williams, Phys. Rev. Lett. 74, 2957 - 2960 (1995)

(125) “Paraxial Wave Theory of Second and Third Harmonic Generation in Uniaxial Crystals: I Narrowband Theory “, D.Eimerl, J.M.Auerbach, and P.Milonni, Journal of Modern Optics, 42, 1037 (1996)

(126) “Effect of Cubic Nonlinearity on Frequency Doubling of High Power Laser Pulses”, T.Ditmire, A.M.Rubenchik, D.Eimerl, and M.Perry, J. Opt. Soc. Am B13, 649 (1996)

(127) “Gain Saturation in Phosphate Laser Glass”, D.M.Pennington, D.Milam and D.Eimerl, CLEO 1996

(128) “Paraxial Wave Theory of Second and Third Harmonic Generation in Uniaxial Crystals: II Broadband Theory “, P.Milonni , J.M.Auerbach, and D.Eimerl, Journal of Modern Optics, 42, 1037 (1996)

(129) “Perturbation Theory for Electric Field Amplitude and Phase Ripple Transfer in Frequency Doubling and Tripling”, , Jerome M.Auerbach, David.Eimerl, David.Milam, and Peter Milonni, Applied Optics 26, 606 (1997)

(130) “Modal Analysis of Directly Driven ICF Targets”, S.M.Pollaine and D.Eimerl, Phys. Plasmas David Eimerl, Ph.D./ Page 16 ______

(131) “The 0.532 micron Option for ICF”, E.M.Campbell, W.Kruer, M.Rosen, and C.Verdon, Comments in Plasma Physics 1,2 (1997)

(132) “Frequency Tripling of Beam Noise”,JM Auerbach,CE Barker, PJ Wegner, D Eimerl, Proc SPIE Volume 3047, p381-386,1997

(133) “Alternate frequency tripling schemes”, Auerbach, Jerome M., Barker, Charles E., Eimerl, David, Milam, David, Milonni, Peter W. Proc. SPIE Vol. 3047, p. 853-858, Solid State Lasers for Application to Inertial Confinement Fusion: Second Annual International Conference, Michel L. Andre; Ed.

(134) “Novel Multicrystal Designs for Efficient Third Harmonic Generation”, D.Eimerl, IEEE J.Qu.Electron,QE-31,1324

(135) “Landmine Policy: Technology Analysis and Framework for International Action”, D.Eimerl, Center for Global Security, Lawrence Livermore National Laboratory Report, August 1997

(136) “Pulse shape and pulselength scaling of ns pulse laser damage threshold” ,MD Feit, AM Rubenchik, A Salleo, D Eimerl - proceedings-SPIE, 1997

(137) “Modal Analysis of Power Imbalance and Pointing Errors for Direct Drive and Tetrahedral Hohlraums”, S.M.Pollaine and D.Eimerl, Nuclear Fusion 38, 1523-1530, 1998

(138) “Use of alternating-Z doubling in high-dynamic-range tripling: design and evaluation of an optimized prototype tripler”, JM Auerbach, CE Barker, DEimerl, Dmilam, PWMilonni, Conference: Third Annual International Conference on Solid State Lasers for Application (SSLA) to Inertial Confinement Fusion (ICF), Monterey, CA, June 7-12, 1998

(139) “Direct Drive Capsules for NIF”, SV Weber, DEimerl, JE Rothenberg, HE Dahlhead, MH Key, CP Verdon, SM Pollaine, UCRL-LR_105821-97-2

(140) “Modeling of Frequency Doubling and Tripling with Convertor Refractive Index Spatial Nonuniformities due to Gravitational Sag”, JM Auerbach, CE Barker, SA Couture, D Eimerl, JJ deYoreo, LA, Hackel, RL Hibbard, LW Liou, MA Norton, SA Perfect, PJ Wegner, Int Conf on Solid State Lasers for Inertial confinement Fusion, Monterey, 1998

(141) “Intradermally focused infrared laser pulses: Thermal effects at defined tissue depths.” Misbah Huzaira Khan, MD , R. Kehl Sink, PhD , Dieter Manstein, MD , David Eimerl, R. Rox Anderson, Lasers in Surgery and Medecine 36, v4, 220-280,2001

(142) "Nonforward stimulated Raman scattering from a phase-modulated pump beam,", D. Eimerl, J. Opt. Soc. Am. B 24, 2465-2471 (2007)