Byer Fejer Group Publications Master List September 1, 2004



Byer Fejer Group Publications Master List September 1, 2004

|BF # |Date |Authors |Title |

|481 |2004 |Xiaojun Yu; Kuo, P.S.; Kai Ma; Levi, O.; Fejer, M.M.; Harris, J.S.|Single-phase growth studies of GaP on Si by solid-source molecular beam epitaxy. |

|480 |2004 |Wisdom, J.; Digonnet, M.; Byer, R.L. |Ceramic lasers: Ready for action |

|479 |2004 |Roussev, R.V.; Langrock, C.; Kurz, J.R.; Fejer, M.M. |Periodically poled lithium niobate waveguide sum-frequency generator for efficient single-photon detection at communication wavelengths |

|478 |2004 |Xiuping Xie; Schober, A.M.; Langrock, C.; Roussev, R.V.; Kurz, |Picojoule threshold, picosecond optical parametric generation in reverse proton-exchanged lithium niobate waveguides. |

| | |J.R.; Fejer, M.M. | |

|477 |2004 |Jiang, Z.; Seo, D.S.; Yang, S.D.; Leaird, D.E.; Roussev, R.V.; |Low-power high-contrast coded waveform discrimination at 10 GHz via nonlinear processing |

| | |Langrock, C.; Fejer, M.M.; etal | |

|476 |2004 |LIGO Scientific Collaboration |Analysis of LIGO data for gravitational waves from binary neutron stars. |

|475 |2004 |LIGO Scientific Collaboration |Analysis of first LIGO science data for stochastic gravitational waves. |

|474 |2004 |LIGO Scientific Collaboration |First upper limits from LIGO on gravitational wave bursts. |

|473 |2004 |Jiang, Z.; Seo, D.S.; Yang, S.D.; Leaird, D.E.; Weiner, A.M.; |Spectrally coded O-CDMA system with four users at 2.5 Gbit/s using low power nonlinear processing. |

| | |Roussev, R.V.; Langrock, C.; Fejer, M.M. | |

|472 |2004 |LIGO Scientific Collaboration |Setting upper limits on the strength of periodic gravitational waves from PSR J1939+2134 using the first science data from the GEO 600 and LIGO |

|471 |2004 |Kurz, J.R.; Huang, J.; Xie, X.P.; Saida, T.; Fejer, M.M. |Mode multiplexing in optical frequency mixers |

|470 |2004 |Smith, J.R.; Cagnoji, G.; Crooks, D.R.M.; Fejer, M.M.; Gossler, |Mechanical quality factor measurements of monolithically suspended fused silica test masses of the GEO 600 gravitational wave detector |

| | |S.; Luck, H.; Rowan, S.; Hough, J.; Danzmann, K. | |

|469 |2004 |LIGO Scientific Collaboration |Upper limits on the strength of periodic gravitational waves from PSR J1939+2134 |

|468 |2004 |Crooks, D.R.M.; Cagnoli, G.; Fejer, M.M.; Gretarsson, A.; Harry, |Experimental measurements of coating mechanical loss factors |

| | |G.; Hough, J.; et al | |

|467 |2004 |LIGO Scientific Collaboration |Detector description and performance for the first coincidence observations between LIGO and GEO |

|466 |2003 |Rowan, S.; Byer, R.L.; Fejer, M.M.; Route, R.K.; Cagnoli, G.; |Test mass materials for a new generation of gravitational wave detectors. |

| | |Crooks, D.R.M.; Hough, J.; et al | |

|465 |2003 |Hanson, J.; Keiser, G.M.; Buchman, S.; Byer, R.L.; Lauben, D.; |Disturbance reduction system: testing technology for drag-free operation. |

| | |Shelef, B.; Shelef, G.; et al | |

|464 |2003 |Folkner, W.M.; Buchman, S.; Byer, R.L.; DeBra, D.B.; et al |Disturbance reduction system: testing technology for precision formation control. |

|463 |2003 |Ben-Yakar, A.; Harkin, A.; Ashmore, J.; Mengyan Shen; Mazur, E.; |Thermal and fluid processes of a thin melt zone during femtosecond laser ablation of glass. |

| | |Byer, R.L.; Stone, H.A. | |

|462 |2003 |Sun, J.Q.; Liu, W.; Tian, J.; Kurz, J.R.; Fejer, M.M. |Multichannel wavelength conversion exploiting cascaded second-order nonlinearity in LiNbO3 waveguides |

|461 |2003 |Sneddon, P.H.; Bull, S.; Cagnoli, G.; Crooks, D.R.M.; Elliffe, |The intrinsic mechanical loss factor of hydroxy-catalysis bonds for use in the mirror suspensions of gravitational wave detectors. |

| | |E.J.; Faller, J.E.; Fejer, M.M.; etal | |

|460 |2003 |Skauli, T.; Kuo, P.S.; Vodopyanov, K.L.; Pinguet, T.J.; Levi, O.; |Improved dispersion relations for GaAs and applications to nonlinear optics. |

| | |Eyres, L.A; Harris, J.S.; Fejer, M.M.; Gerard, B.; Becouarn, L.; | |

| | |Lallier, E. | |

|459 |2003 |Gurkan, D.; Kumar, S.; Willner, A.E.; Parameswaran, K.R.; Fejer, |Simultaneous label swapping and wavelength conversion of multiple independent WDM channels in an all-optical MPLS network using PPLN waveguides as wavelength converters. |

| | |M.M. | |

|458 |2003 |McGeehan, J.E.; Kumar, S.; Gurkan, D.; Nezam, S.M.R.M.; Willner, |All-optical decrementing of a packet's time-to-live (TTL) field and subsequent dropping of a zero-TTL packet. |

| | |A.E.; Parameswaran, K.R.; Fejer, | |

|457 |2003 |Ben-Yakar, A.; Byer, R.L.; Harkin, A.; Ashmore, J.; Stone, H.A.; |Morphology of femtosecond-laser-ablated borosilicate glass surfaces |

| | |Shen, M.; Mazur, E. | |

|456 |2003 |Schachter, L.; Byer, R.L.; Siemann, R.H. |Wake Field in Dielectric Acceleration Structures |

|455 |2003 |Chirila, M.M.; Garces, N.Y.; Halliburton, L.E.; Evans, D.R.; |Thermally stimulated luminescence from vapor-transport-equilibrated LiTaO{sub 3} crystals. |

| | |Route, R.K.; Fejer, M.M. | |

|454 |2003 |Penn, S.D.; Sneddon, P.H.; Armandula, H.; Betzwieser, J.C.; |Mechanical loss in tantala/silica dielectric mirror coatings. |

| | |Cagnoli, G.; Camp, J.; Crooks, etal | |

|453 |2003 |Beausoleil, R.G.; Gustafson, E.K.; Fejer, M.M.; D'Ambrosio E.; |Model of thermal wave-front distortion in interferometric gravitational-wave detectors. I. Thermal focusing. |

| | |Kells; W.; Camp, J. | |

|452 |2003 |Hanson, J.; Mac Keiser, G.; Buchman, S.; Byer, R.; Lauben, D.; |ST-7 Gravitational Reference Sensor: Analysis of Magnetic Noise Sources |

| | |DeBra, D; Williams, S.; Gill, D.; etal | |

|451 |2003 |Yu, X.; Scaccabarozzi, L.; Levi, O.; Pinguet, T.J.; Fejer, M.M.; |Template design and fabrication for low-loss orientation-patterned nonlinear AlGaAs waveguides pumped at 1.55 mu m. |

| | |Harris, S. | |

|450 |2003 |Campillo, A.L.; Hsu, J.W.P.; Parameswaran, K.R.; Fejer, M.M. |Direct imaging of multimode interference in a channel waveguide. |

|449 |2003 |Ohara, T.; Takara, H.; Shake, I.; Mori, K.; Kawanishi, S.; Mino, |160-Gb/s optical-time-division multiplexing with PPLN hybrid integrated planar lightwave circuit. |

| | |S.; Yamada, T.; Ishii, M.; Kitoh, T.; etal | |

|448 |2003 |Vazhenin, V.A.; Guseva, V.B.; Artyomov, M.Y.; Route, R.K.; Fejer, |Fine structure of the electron paramagnetic resonance spectrum of Fe{sup 3+} centres in LiTaO{sub 3}. |

| | |M.M.; Byer, R.L. | |

|447 | |Empty | |

|446 |2002 |de Paula, E.R., Souza, J.R., Fejer, B.G., Bailey, G.J., Heelis, |Longitudinal ionospheric effects in the South Atlantic evening sector during solar maximum - art. no. 1102 |

| | |R.A. | |

|445 |2002 |Camp, J.B.; Billingsley, G.; Kells, W.; Lazzarini, A.; Sanders, |LIGO optics: initial and advanced. |

| | |G.; Whitcomb, S.; Alexandrovski, A.; etal | |

|444 |2002 |Block, U.L.; Vakoc, B.J.; Digonnet, M.J.F.; Fejer, M.M. |Passive WDM channel power equalization with cascaded nonlinear amplifying loop mirrors. |

|443 |2002 |Block, U.L.; Ozcan, A.; Digonnet, M.J.F.; Fejer, M.M. |Polarization-independent mechanically induced long-period fiber gratings. |

|442 |2002 |Bisson, S.E.; Kulp, T.J.; Bambha, R.; Armstrong, K.; Levi, O.; |Long-wave IR chemical sensing based on difference frequency generation in orientation patterned GaAs. |

| | |Pinguet, T.; Eyres, L.A.; Fejer, M.M.; etal | |

|441 |2002 |Sinha, S.; Mansell, J.D.; Byer, R.L. |Deformable mirrors for high-power lasers. |

|440 |2002 |Shur, V.Y.; Rumyantsev, E.L.; Nikolaeva, E.V.; Shishkin, E.I.; |Domain kinetics in congruent and stoichiometric lithium niobate |

| | |Batchko, R.G.; Fejer, M.M.; Byer, R.L. | |

|439 |2002 |Ben-Yakar, A.; Byer, R.L. |Femtosecond Laser Machining of Fluidic Microchannels for Miniaturized Bioanalytical Systems |

|438 |2002 |Mansell, J.D.; Sinha, S.; Byer, R.L. |Deformable Mirror Development at Stanford University |

|437 |2002 |Schachter, L., Byer, R.L., Siemann, R.H. |Optical accelerator: scaling laws and figures of merit. |

|436 |2002 |Levi, O.; Pinguet, T.J.; Skauli, T.; Eyres, L.A.; Parameswaran, |Difference frequency generation of 8- mu m radiation in orientation-patterned GaAs. |

| | |K.R.; Harris, J.S.; Fejer, M.M.;etal | |

|435 |2002 |Cardakli, M.C.; Sahin, A.B.; Adamczyk, O.H.; Willner, A.E.; |Wavelength conversion of subcarrier channels using difference frequency generation in a PPLN waveguide. |

| | |Parameswaran, K.R.; Fejer, M.M. | |

|434 |2002 |Kulp, T.J.; Bisson, S.E.; Bambha, R.P.; Reichardt, T.A.; Goers, |The application of quasi-phase-matched parametric light sources to practical infrared chemical sensing systems |

| | |U.B.; Aniolek, K.W.; Kliner, D.A.V.; Richman, B.A.; Armstrong, | |

| | |K.M.; Sommers, R.; Schmitt, R.; Powers, P.E.; Levi, O.; Pinguet, | |

| | |T.;etal | |

|433 |2002 |Kurz, J.R.; Xie, X.P.; Fejer, M.M. |Odd waveguide mode quasi-phase matching with angled and staggered gratings. |

|432 |2002 |Lawrence, M.J.; Byer, R.L.; Fejer, M.M.; Bowen, W.; Lam, P.K.; |Squeezed Singly Resonant Second-Harmonic Generation in Periodically Poled Lithium Niobate |

| | |Bachor, H.A. | |

|431 |2002 |Schober, A.M.; Imeshev, G.; Fejer, M.M. |Tunable-chirp pulse compression in quasi-phase-matched second-harmonic generation. |

|430 |2002 |Gallmann, L.; Steinmeyer, G.; Imeshev, G.; Meyn, J.P.; Fejer, |Sub-6-fs blue pulses generated by quasi-phase-matching second-harmonic generation pulse compression. |

| | |M.M.; Keller, U. | |

|429 |2002 |Rodriguez, S.C.; Torres, J.P.; Torner, L.; Fejer, M.M. |Efficiency-enhanced soliton optical parametric amplifier. |

|428 |2002 |Kurz, J.R.; Schober, A.M.; Hum, D.S.; Saltzman, A.J.; Fejer, M.M. |Nonlinear physical optics with transversely patterned quasi-phase-matching gratings. |

|427 |2002 |Beyersdorf, P.T.; Byer, R.L.; Fejer, M.M. |Results from the Stanford 10 m Sagnac Interferometer |

|426 |2002 |Skauli, T.; Vodopyanov, K.L.; Pinguet, T.J.; Schober, A.; Levi, |Measurement of the nonlinear coefficient of orientation-patterned GaAs and demonstration of highly efficient second-harmonic generation. |

| | |O.; Eyres, L.A.; Fejer, M.M.; etal | |

|425 |2002 |Zheng, Z.; Weiner, A.M.; Parameswaran, K.R.; Chou, M.H.; Fejer, |Femtosecond second-harmonic generation in periodically poled lithium niobate waveguides with simultaneous strong pump depletion and group-velocity walk-off |

| | |M.M. | |

|424 |2002 |Nakagawa, N.; Gretarsson, A.M.; Gustafson, E.K.; Fejer, M.M. |Thermal noise in half-infinite mirrors with nonuniform loss: a slab of excess loss in a half-infinite mirror. |

|423 |2002 |Harel, R.; Burkett, W.H.; Lenz, G.; Chaban, E.E.; Parameswaran, |Interchannel cross talk caused by pump depletion in periodically poled LiNbO{sub 3} waveguide wavelength converters. |

| | |K.R.; Fejer, M.M.; Brener, I. | |

|422 |2002 |Harry, G.M.; Gretarsson, A.M.; Saulson, P.R.; Kittelberger, S.E.; |Thermal noise in interferometric gravitational wave detectors due to dielectric optical coatings. |

| | |Penn, S.D.; Startin, W.J.; etal | |

|421 |2002 |Artigas, D.; Reid, D.T.; Fejer, M.M.; Torner, L. |Pulse compression and gain enhancement in a degenerate optical parametric amplifier based on aperiodically poled crystals. |

|420 |2002 |Crooks, D.R.M.; Sneddon, P.; Cagnoli, G.; Hough, J.; Rowan, S.; |Excess mechanical loss associated with dielectric mirror coatings on test masses in interferometric gravitational wave detectors. |

| | |Fejer, M.M.; Gustafson, E.; etal | |

|419 |2002 |Nakagawa, N.; Gustafson, E.K.; Beyersdorf, P.T.; Fejer, M.M. |Estimating the off resonance thermal noise in mirrors, Fabry-Perot interferometers, and delay lines: The half infinite mirror with uniform loss. |

|418 |2002 |Shur, V.Y.; Blankova, E.B.; Rumyantsev, E.L.; Nikolaeva, E.V.; |X-ray-induced phase transformation in congruent and vapor-transport-equilibrated lithium tantalate and lithium niobate. |

| | |Shishkin, E.I.; Barannikov, A.V.; etal | |

|417 |2002 |Cardakli, M.C.; Gurkan, D.; Havstad, S.A.; Willner, A.E.; |Tunable all-optical time-slot-interchange and wavelength conversion using difference-frequency-generation and optical buffers. |

| | |Parameswaran, K.R.; Fejer, M.M., Brener, I; | |

|416 |2002 |Kanter, G.S.; Kumar, P.; Roussev, R.V.; Kurz, J.; Parameswaran, |Squeezing in a LiNbO{sub 3} integrated optical waveguide circuit. |

| | |K.R.; Fejer, M.M. | |

|415 |2002 |Parameswaran, K.R.; Route, R.K.; Kurz, J.R.; Roussev, R.V.; Fejer,|Highly efficient second-harmonic generation in buried waveguides formed by annealed and reverse proton exchange in periodically poled lithium niobate. |

| | |M.M.; Fujimura, M. | |

|414 |2002 |Nakamura, K.; Kurz, J.; Parameswaran, K.; Fejer, M.M. |Periodic poling of magnesium-oxide-doped lithium niobate. |

|413 |2002 |Parameswaran, K.R.; Kurz, J.R.; Roussev, R.V.; Fejer, M.M. |Observation of 99% pump depletion in single-pass second-harmonic generation in a periodically poled lithium niobate waveguide. |

|412 |2001 |Shur, V.Y.; Rumyantsev, E.L.; Nikolaeva, E.V.; Shishkin, E.I.; |Formation of self-organized nanodomain patterns during spontaneous backswitching in lithium niobate |

| | |Fursov, D.V.; Batchko, R.G.; Eyres, etal | |

|411 |2001 |Shur, V.Y.; Rumyantsev, E.L; ,Nikolaeva, E.V.; Shishkin, E.I.; |Recent achievements in domain engineering in lithium niobate and lithium tantalate. |

| | |Batchko, R.G.; Fejer, M.M.; Byer, R.L. | |

|410 |2001 |Parameswaran, K.R.; Kurz, J.R.; Roussev, R.V.; Fejer, M.M., Chou, |Optical frequency mixers for WDM and TDM applications. |

| | |M.H.; Brener, I., Kawanishi, S.; etal | |

|409 |2001 |Kurz, J.R.; Parameswaran, K.R.; Roussev, R.V.; Fejer, M.M.; Chou, |Optical frequency mixers for WDM and TDM applications. |

| | |M.H.; Brener, I. | |

|408 |2001 |Meyn, J.P.; Laue, C.; Knappe, R.; Wallenstein, R.; Fejer, M.M. |Fabrication of periodically poled lithium tantalate for UV generation with diode lasers. |

|407 |2001 |Kurz, J.R.; Parameswaran, K.R.; Roussev, R.V.; Fejer, M.M. |Optical-frequency balanced mixer. |

|406 |2001 |Eyres, L.A.; Tourreau, P.J.; Pinguet, T.J.; Ebert, C.B.; Harris, |All-Epitaxial Fabrication of Thick, orientation-patterned GaAs films for nonlinear optical frequency conversion. |

| | |J.S.; Fejer, M.M.; Becouarn, L.; Gerard, B.; eta | |

|405 |2001 |Camp, J.B.; Kells, W.; Fejer, M.M.; Gustafson, E. |Measurement of birefringence of low-loss, high-reflectance coating of m-axis sapphire. |

|404 |2001 |Rutherford, T.S.; Tulloch, W.M.; Sinha, S.; Byer, R.L |Yb:YAG and Nd:YAG edge-pumped slab lasers. |

|403 |2001 |Gallo, K.; Assanto, G.; Parameswaran, K.R.; Fejer, M.M. |All-Optical Diode in a Periodically Poled Lithium Niobate Wavewguide |

|402 |2001 |Kawanishi, S.; Yamamoto, T.; Nakazawa, M.; Fejer, M.M. |High Sensitivity Waveform Measurement with Optical Sampling Using Quasi-Phasematched Mixing in LiNbO3 Waveguide |

|401 |2001 |Gallmann, L.; Steinmeyer, G.; Keller, U.; Imeshev, G.; Fejer, |Generation of a sub-6-fs Blue Pulses by Frequency Doubling with Quasi-Phasematching Gratings |

| | |M.M.; Meyn, J.P. | |

|400 |2001 |Zheng, Z.; Weiner, A.; Parameswaran, K.R; Chou, M.H.; Fejer, M.M. |Low-power Spectral Phase Correlator Using Periodically Poled LiNbO3 Waveguides |

|399 |2001 |Svelto, C.; Ferrario, F.; Arie, A; Arbore, M.A.; Fejer, M.M. |Frequency stabilization of a novel 1.5-mum Er-Yb bulk laser to a K-39 sub-Doppler line at 770.1 nm |

|398 |2001 |Kanter, G.S.; Kumar, P.; Parameswaran, K.R.; Fejer, M.M. |Wavelength-selective pulsed all-optical switching based on cascaded second-order nonllinearity in a periodically poled lithium-niobate waveguide |

|397 |2001 |Furukawa, Y.; Kitamura, K.; Alexandrovski, A.; Route, R.K.; Fejer,|Green-induced infrared absorption in MgO-doped LiNbO3 |

| | |M.M.; Foulon, G. | |

|396 |2001 |Imeshev, G.; Fejer, M.M.; Galvanauskas, A.; Harter, D. |Pulse shaping by difference-frequency mixing with quasi-phase-matching gratings |

|395 |2001 |Xianmei Meng; Diels, J.C.; Kuehlke, D.; Batchko, R.; Byer, R. |Bidirectional, synchronously pumped, ring optical parametric oscillator. |

|394 |2001 |Imeshev, G.; Fejer, M.M.; Galvanauskas, A.; Harter, D. |Generation of dual-wavelength pulses by frequency doubling with quasi-phase-matching gratings |

|393 |2001 |Mansell, J.D.; Hennawi, J.; Gustafson, E.K.; Fejer, M.M.; Byer, |Evaluating the effect of transmissive optic thermal lensing on laser beam quality with a Shack-Hartmann wave-front sensor. |

| | |R.L.; Clubley, D.; Yoshida, S.; Reitze, D.H. | |

|392 |2000 |Rowan, S.; Alexandrovski, A.; Cagnoli, G.; Fejer, M.M.; Gustafson,|Mechanical loss factors of materials and suspension systems for advanced gravitational wave detectors. |

| | |E.K.; Hough, J., McIntosh, S.; etal | |

|391 |2000 |Danielli, A.; Rusian, P.; Arie, A.; Chou, M.H.; Fejer, M.M |Frequency stabilization of a frequency-doubled 1556-nm source to the 5S{sub 1/2} to 5D{sub 5/2} two-photon transitions of rubidium. |

|390 |2000 |Cagnoli, G.; Hough, J.; DeBra, D.; Fejer, M.M.; Gustafson, E.; |Damping dilution factor for a pendulum in an interferometric gravitational waves detector. |

| | |Rowan, S.; Mitrofanov, V. | |

|389 |2000 |Beyersdorf, P.T.; Byer, R.L.; Fejer, M.M. |The polarization Sagnac interferometer as a candidate configuration for an advanced detector |

|388 |2000 |Brener, I.; Mikkelsen, B.; Raybon, G.; Harel, R.; Parameswaran, |160Gbit/s wavelength shifting and phase conjugation using periodically poled LiNbO3 waveguide parametric converter. |

| | |K.; Kurz, J.R.; Fejer, M.M | |

|387 |2000 |Mansell, J.D.; Catrysse, P.B.; Gustafson, E.K.; Byer, R.L. |Silicon deformable mirrors and CMOS-based wavefront sensors |

|386 |2000 |Kawanishi, S; Chou, M.H.; Fujiura, K.; Fejer, M.M.; Morioka, T. |All-optical modulation and time-division-multiplexing of 100Gbit/s signal using quasi-phasematched mixing in LiNbO3 waveguides |

|385 |2000 |Imeshev, G; Arbore, M.A.; Kasriel, S.; Fejer, M.M. |Pulse shaping and compression by second-harmonic generation with quasi-phase-matching gratings in the presence of arbitrary dispersion. |

|384 |2000 |Alexandrovski, A.L.; Fejer, M.M.; Route, R.K. |Effect of annealing on the light absorption in sapphire. |

|383 |2000 |Parameswaran, K.R.; Fujimura, M.; Chou, M.H; Fejer, M.M |Low-power all-optical gate based on sum frequency mixing in APE waveguides in PPLN. |

|382 |2000 |Rowan, S.; Cagnoli, G.; Sneddon, P.; Hough, J.; Route, R.; |Investigation of mechanical loss factors of some candidate materials for the test masses of gravitational wave detectors. |

| | |Gustafson, E.K.; Fejer, M.M.; Mitrofanov, V. | |

|381 |2000 |Chou, M.H.; Parameswaran, K.R.; Fejer, M.M.; Brener, I. |Optical signal processing and switching with second-order nonlinearities in waveguides |

|380 |2000 |Shur, V.Y.; Rumyantsev, E.; Nikolaeva, E.; Shishkin, E.; Batchko, |Micro- and nanoscale domain engineering in lilthium niobate and lithium tantalate |

| | |R.G.; Miller, G.D.; Fejer, M.M.; Byer, R.L. | |

|379 |2000 |Rutherford, T.S.;Tulloch, W.M.; Gustafson, E.K.; Byer, R.L |Edge pumped quasi-thee-level slab lasers: design and power scaling |

|378 |2000 |Imeshev, G.; Arbore, M.A.; Fejer, M.M.; Galvanauskas, A.; Fermann,|Ultrashort-pulse second-harmonic generation with longitudinally nonuniform quasi-phase-matching gratings: pulse compression and shaping. |

| | |M.; Harter, D. | |

|377 |2000 |Chou, M.H.; Brener, I.; Lenz, G.; Scotti, R.; Chaban, E.E.; |Efficient Wide-Band and Tunable Midspan Spectral Inverter Using Cascaded Nonlinearities in LiNbO3 Waveguides |

| | |Shmulovich, J.; Philen, D.; Kosinski, S.; etal | |

|376 |2000 |Brener, I.; Chou, M.H.; Chaban, E.; Parameswaran, K.R.; Fejer, |Polarisation-insensitive wavelength converter based on cascaded nonlinearities in LiNb03 waveguides. |

| | |M.M.; Kosinski, S.; Pruitt, D.L. | |

|375 |2000 |Shur, V.Y.; Rumyantsev, E.L.; Nikolaeva, E.V.; Shishkin, E.I.; |Nanoscale backswitched domain patterning in lithium niobate. |

| | |Fursov, D.V.; Batchko, R.G.; Eyres, eta | |

|374 |2000 |Rutherford, TA; Tulloch, WM; Byer, RL |Edge pumping drives slab-laser performance |

|373 |2001 |Lawrence, MJ; Byer, RL; Arbore, MA; Kmetec, JD |Wide-Bandwidth 25-dB Amplitude Noise Suppression in a Pump-and-Signal-Resonant Optical Parametric Oscillator |

|372 |2001 |Rutherford, TS; Tulloch, WM; Sinha, S; Byer, RL |Yb:YAG and Nd:YAG Edge-Pumped Slab Lasers |

|371 |2001 |Shur, VY; Rumyantsev, EL; Nikolaeva, EV; Shishkin, EI; Fursov, DV;|Formation of Self-Organized Nanodomain Patterns During Spontaneous Backswitching in Lithium Niobate |

| | |Batchko, RG; Eyres, LA; Fejer, MM; | |

|370 |2001 |Meng, X; Diels, JC; Kuehlke, D; Batchko, R; Byer, RL |Bidirectional, Synchronously Pumped, Ring Optical Parametric Oscillator |

|369 |2001 |Mansell, JD; Hennawi, J; Gustafson, EK; Fejer, MM; Byer, RL; |Evaluating the Effect of Transmissive Optic Thermal Lensing on Laser Beam Quality with a Shack-Hartmann Wave-Front Sensor |

| | |Clubley, D; Yoshida, S; Reitze, DH | |

|368 |2000 |Shur, VY; Rumyantsev, EL; Nikolaeva, EV; Shishkin, EI; Batchko, |Regular Ferroelectric Domain Array in Lithium Niobate Crystals for Nonlinear Optics Applications |

| | |RG; Miller, GD; Fejer, MM; Byer, RL | |

|367 |2000 |Byer, RL |Nonlinear Optics and Solid-State Lasers: 2000 |

|366 |2000 |Traeger, S.; Beyersdorf, P; Gustafson, E; Beausoleil, R; Route, |All-Reflective Interferometry for Gravitational-Wave Detection |

| | |RK; Byer, RL;Fejer, MM | |

|365 |2000 |Levenson, MD; Paldus, BA; Spence, TG; Harb, CC; Zare, RN; |Frequency-Switched Heterodyne Cavity Ringdown Spectroscopy |

| | |Lawrence, MJ; Byer, RL | |

|364 |2000 |Traeger, S.; Beyersdorf, P., Goddard, L; Gustafson, E; Fejer, MM; |Polarization Sagnac Interferometer with a Reflective Grating Beam Splitter |

| | |Byer, RL | |

|363 |2000 |Spence, TF; Harb, CC; Paldus, BA; Zare, RN; Willke, B; Byer, RL |A Laser-Locked Cavity Ring-Down Spectrometer Employing an Analog Detection Scheme |

|362 |2000 |Rutherford, T.S.; Tulloch, W.M.; Gustafson, E.K.; Byer, R.L. |Edge-Pumped Quasi-Three-Level Slab Lasers: Design and Power Scaling |

|361 |2000 |Shur, VY; Rumyantsev, EL; Nikolaeva, EV; Shishkin, EI; Fursov, DV;|Nanoscale Backswitched Domain patterning in Lithium Niobate |

| | |Batchko, RG; Eyres, LA; Fejer, MM; Byer, RL | |

|360 |1999 |Bader, U; Meyn, JP; Bartschke, J; Weber, T; Borsuntzky, A; |Nanosecond Periodically Poled Lithium Niobate Optical Parametric Generator Pumped at 532 nm by a Single-Frequency Passively Q-Switched Nd:YAG Laser |

| | |Wallenstein, R; Batchko, RG; Fejer, MM; Byer, RL | |

|359 |1999 |Shur, VY; Rumyantsev, EL; Batchko, RG; Miller, GD; Fejer, MM; |Domain Kinetics in the Formation of a Periodic Domain Structure in Lithium Niobate |

| | |Byer, RL | |

|358 |1999 |Shur, V;Rumyantsev,E;Batchko,RB; Miller, G; Fejer, MM; Byer, RL |Physical Basis of the Domain Engineering in the Bulk Ferroelectrics |

|357 |1999 |Batchko, RG; Shur, VY; Fejer, MM; Byer, RL |Backswitch Poling in Lithium Niobate for High-Fidelity Domain Patterning and Efficient Blue Light Generation |

|356 |1999 |Beyersdorf, Peter T.; Fejer, MM; Byer, RL |Polarization Sagnac Interferometer with a Common-Path Local Oscillator for Heterodyne Detection |

|355 |1999 |Batchko, RG; Fejer, MM; Byer, RL ; Woll, D; Wallenstein, R; Shur, |Continuous-Wave Quasi-Phase-Matched Generation of 60 mW at 465 nm by Single-Pass Frequency Doubling of a Laser Diode in Backswitch-Poled Lithium Niobate |

| | |VY; Erman, L | |

|354 |1999 |Beyersdorf, Peter T.; Fejer, MM; Byer, RL |Polarization Sagnac Interferometer with Postmodulation for Gravitational-Wave Detection |

|353 |1999 |Huang, YC; Lee, YW; Plettner, T; Byer, RL |The Proposed Interferometric-Type Laser-Drien Particle Accelerators |

|352 |1999 |Plettner, T; Spencer, JE; Huang, YC; Byer, RL; Siemann, RH; Smith,|The Laser Driven Particle Accelerator Project: Theory and Experimenta |

| | |TI | |

|351 |1999 |Batchko, RG; Fejer, MM; Byer, RL; Shur, VY; Erman, L |Backswitch Poling of 0.5-mm-Thick Lithium Niobate for 6.4%/W-Efficient cw Second Harmonic Generation of 460 nm Light |

|350 |1999 |Tulloch, WM; Rutherford, TS; Gustafson, EK; Byer, RL |A 100 W Edge-Pumped Nd:YAG Conduction-Cooled Slab Laser |

|349 |1999 |Batchko, RB; Miller, GD; Shur, V. Ya.; Rumyantsev, EL;Fejer, MM; |Domain Patterning in Lithium Niobate using Spontaneous Backswitching |

| | |Byer, RL | |

|348 |1999 |Lawrence, MJ; Willke, B; Husman, ME; Gustafson, EK; Byer, RL |Dynamic Response of a Fabry-Perot Interferometer |

|347 |1999 |Kretschmann, HM; Huber, G; Batchko, RG; Meyn, JP; Fejer, MM; Byer,|Singly Resonant, Continuous Wave, Sum Frequency Mixing of Two Nd3+ Lasers in Periodically Poled Lithium Niobte |

| | |RL | |

|346 |1998 |Tulloch, WM; Rutherford, TS; Huntington, EH; Ewart, R; Harb, CC; |Quantum Noise in a Continuous-Wave Laser-Diode-Pumped Nd:YAG Linear Optical Amplifier |

| | |Willke, B; Gustafson, EK; Fejer, MM; | |

|345 |1998 |Mansell, Justin; Byer, RL |Micromachined Silicon Deformable Mirror |

|344 |1998 |Willke, B; Uehara, N.; Gustafson, EK; Byer, RL; King, PJ, Seel, |Spatial and Temporal Filtering of a 10-W Nd:YAG Laser with a Fabry-Perot Ring-Cavity Premode Cleaner |

| | |SU; Savage, RL Jr. | |

|343 |1998 |Wu, YCS;Feigelson, RS; Route, RK; Zheng, D; Gordon, LA; Fejer, MM;|Low Optical Loss Wafer Bonded GaAs Structures for Quasi-Phase-Matched Second Harmonic Generation |

| | |Byer, RL | |

|342 |1998 |Taira, T; Saikawa, J; Yamaguchi, E, Kobayashi, T; Byer, RL |Intracavity Frequency Doubled Yb:YAG Miniature Laser |

|341 |1998 |Huang, YC; Plettner, T; Byer, Rl; Pantell, RH; Swent, RL; Smith, |The Physics Experiment for a Laser-Driven Electron Accelerator |

| | |TI; Spencer, JE; Siemann, RH; et al | |

|340 |1998 |Huang, YC; Byer, Rl |Acceleration-Field Calculation for a Structure-Based-Laser-Driven Accelerator |

|339 |1998 |Zheng, D; Gordon, LA, Wu, YS; Feigelson, RS; Fejer, MM; Byer, RL; |16-µm Infrared Generation by Difference-Frequency Mixing in Diffusion-Bonded-Stacked GaAs |

| | |Vodopyanov, KL | |

|338 |1998 |Wu, YS; Feigelson, RS; Route, RK; Zheng, D; Gordon, LA; Fejer, MM;|Effects of Wafer Thermostability and Wafer-Holding Materials on Optical Loss in GaAs Annealing |

| | |Byer, RL | |

|337 |1998 |Sun, KX; Byer, RL |All-Reflective Michelson, Sagnac, and Fabry-Perot Interferometers based on Grating Beam Splitters |

|336 |1998 |Batchko, RG; Weise, DR; Plettner, T; Miller, GD; Fejer, MM; Byer, |Continuous-Wave 532-nm-Pumped Single Resonant Optical Parametric Oscillator based on Periodically Poled Lithium Niobate |

| | |RL | |

|335 |1998 |Wu, YS; Feigelson, RS; Route, RK; Zheng, D; Gordon, LA; Fejer, MM;|Improved GaAs Bonding Process for Quasi-Phase-Matched Second Harmonic Generation |

| | |Byer, RL | |

|334 |1997 |Byer, Rl |Quasi-Phasematched Nonlinear Interactions and Devices |

|333 |1997 |Huang, YC; Byer, RL |Ultra-Compact, High-Gain, High-Power Free-Electron Lasers Pumped by Future Laser-Driven Accelrators |

|332 |1997 |Miller, GD; Batchko, RB; Tulloch, WM; Wiese, DR; Fejer, MM; Byer, |42% Efficient Single-Pass cw Second-Harmonic Generation in Periodically Poled LiNbO3 |

| | |RL | |

|331 |1997 |Sun, KX; Fejer, MM; Gustafson, E; Byer, RL |Balanced Heterodyne Signal Extraction in a Postmodulated Sagnac Interferometer at Low Frequency |

|330 |1997 |Sun, KX; Gustafson, ER; Fejer, MM; Byer, RL |Polarization-Based Balanced Heterodyne Detection Method in a Sagnac Interferometer for Precision Phase Measurement |

|329 |1997 |Zheng, D; Gordon, LA; Wu, YS; Route, RK; Fejer, MM; Byer, RL; |Diffusion Bonding of GaAs Wafers for Nonlinear Optics Applications |

| | |Feigelson, RS | |

|328 |1997 |Taira, T; Tulloch, WM; Byer, RL |Modeling of Quasi-Three-Level Lasers and Operation of cw Yb:YAG Lasers |

|327 |1997 |Taira, T; Saikawa, Jiro, Kobayashi, T; Byer, RL |Diode-Pumped Tunable Yb:YAG Miniature Lasers at Room Temperature: Modeling and Experiment |

|326 |1997 |Uehara, N; Gustafson, EK; Fejer, MM; Byer, RL |Modeling of Efficient Mode Matching and Thermal-Lensing Effect on a Laser-Beam Coupling into a Mode-Cleaner Cavity |

|325 |1997 |Taira, T; Saikawa, J; Ohtaka, M; Kobayashi, T; Byer, RL |Modeling of End-Pumped Quasi-Three-Level Lasers by using a M2 Factor and CW Operation of Tunable Yb:YAG Miniature Lasers |

|324 |1997 |Batchko, RG; Weise, DR; Plettner, T; Miller, GD, Fejer, MM; Byer, |532 nm-Pumped Continuous-Wave Single Resonant Optical Parametric Oscillator Based on Periodically-Poled Lithium Niobate |

| | |Rl | |

|323 |1996 |Zheng, D; Gordon, LA; Eckardt, RC; Fejer, MM; Byer, RL |Diffusion Bonding of GaAs Wafers for Nonlinear Optics Applications |

|322 |1996 |Huang, YC; Byer, RL |A Proposed High-Gradient Laser-Driven Electron Accelerator using Crossed Cylindrical Laser Focusing |

|321 |1996 |Bosenberg, WR; Drobshoff, A; Alexander, JL; Myers, LE; Byer, RL |93% Pump Depletion, 3.5-W Continuous-Wave, Single Resonant Optical Parametric Oscillator |

|320 |1996 |Huang, YC; Byer, RL |Design for a GeV per Meter, Laser-Driven Electron Accelerator |

|319 |1996 |Myers, LE; Eckardt, RC; Fejer, MM; Byer, RL; Bosenberg, WR;Pierce,|Quasi-Phasematched Optical Parametric Oscillators using Periodically Poled LiNbO3 |

| | |JW | |

|318 |1996 |Miller, GD; Batchko, RB; Fejer, MM; Byer, RL |Visible Quasi-Phasematched Harmonic Generation by Electric-Field-Poled Lithium Niobte |

|317 |1996 |Myers, LE; Bosenberg, WR; Alexander, JI; Arbore, MA; Fejer, MM; |CW Single-Resonant Optical Parametric Oscillators Based on 1.064-µm-Pumped Periodically Poled LiNbO3 |

| | |Byer, RL | |

|316 |1996 |Taira, T; Kobayashi, T; Tulloch, WM; Byer, RL |Single Axial-Mode Oscillation of a Coupler Cavity Yb:YAG Laser |

|315 |1996 |Tairs, T; Tulloch, WM; Byer, RL; Kobayashi, T |Single Axial Mode Operation of Resonantly Pumped Yb:YAG Microchip Lasers |

|314 |1996 |Bosenberg, WR; Drobshoff, A; Alexander, JI; Myers, LE; Byer, RL |Continuous-Wave Singly Resonant Optical Parametric Oscillator based on Periodically-Poled LiNbO3 |

|313 |1996 |Sun, KX; Fejer, MM; Gustafson, E; Byer, RL |Sagnac Interferometer for Gravitational-Wave Detection |

|312 |1996 |Myers, LE; Eckardt, RC; Fejer, MM; Byer, RL; Bosenberg |Multigrating Quasi-Phase-Matched Optical Parametric Oscillator in Periodically Poled LiNbO3 |

|311 |1996 |Juang, Y; Byer, RL |A Dielectric-Based, GeV/m Crossed-Laser-Beam Electron Linear Accelerator |

|310 |1996 |Sanders, S; Lang, RJ; Myers, LE; Fejer, MM; Byer, RL |Broadly Tunable Mid-IR Radiation Source based on Difference Frequency Mixing of High Power Wavelength-Tunable Laser Diodes in Bulk Periodically Poled LiNbO3 |

|309 |1996 |Huang, YC; Zheng, D; Tulloch, WM; Byer, Rl |Proposed Structure for a Crossed-Laser Beam, GeV per Meter Gradient, Vacuum Electron Linear Accelerator |

| |1995 |Eckhardt, Robert C.; Nabors, C.D.; Kozlovsky, William J.; Byer, |Optical Parametric Oscillator Frequency Tuning and Control: Errata |

| | |Robert L. | |

|308 |1995 |Taira, T; Tullock, B; Byer, RL |Resonantly Pumped Yb:YAG Microchip Lasers |

|307 |1995 |Myers, LE; Bortz, ML; Arbore, MA; Eckardt, RC; Fejer, MM; Byer, RL|Quasi-Phasematched Optical Parametric Oscillators using Bulk Periodically Poled LiNbO3 |

|306 |1995 |Myers, LE; Eckardt, RC; Fejer, MM; Byer, RL; Bosenberg, WR;Pierce,|Quasi-Phasematched Optical Parametric Oscillators using Bulk Periodically Poled LiNbO3 |

| | |JW | |

|305 |1995 |Myers, LE; Eckardt, RC; Fejer, MM; Byer, RL; Pierce, JW, |CW Diode-Pumped Optical Parametric Oscillator in Bulk Periodically Poled LiNbO3 |

| | |Beausoleil, RG | |

|304 |1995 |Serkland, DK; Fejer, MM; Byer, RL; Yamamoto, Y |Squeezing in a Quasi-Phase-Matched LiNbO3 Waveguide |

|303 |1995 |Zheng, D; Byer, RL |Proposed Waveguide Structure for Laser Driven Electron Accelration |

|302 |1995 |Myers, LE; Eckardt, RC; Fejer, MM; Byer, RL; Pierce, JW, |Quasi-Phasematched Optical Parametric Oscillators using Bulk Periodically Poled LiNbO3 |

| | |Beausoleil, RG | |

|301 |1995 |Shine, RJ Jr.; Alfrey, AJ; Byer, RL |A 40 W CW, TEM00 Mode, Diode-Laser-Pumped, Nd:YAG Miniature-Slab Laser |

|300 |1995 |Shine, RJ; Alfrey, AJ; Byer, RL |A 40 W CW, TEM00 Mode, Diode-Laser-Pumped, Nd:YAG Miniature-Slab Laser |

|299 |1995 |Farinas, AD; Gustafson, EK; Byer, RL |Frequency and Intensity Noise in an Injection-Locked, Solid-State Laser |

|298 |1995 |Shine, RJ; Alfrey, AJ; Byer, RL |A 40 W CW, TEM00 Mode, Diode-Laser-Pumped, Nd:YAG Slab Laser |

|297 |1995 |Myers, LE; Eckardt, RC; Fejer, MM; Byer, RL; Pierce, JW, |CW Diode-Pumped Optical Parametric Oscillator in Bulk Periodically Poled LiNbO3 |

| | |Beausoleil, RG | |

|296 |1995 |Bosenberg, WR; Drobshoff, A; Gerstenberger, DC; Myers, LE; |Long Pulse Optical Parametric Oscillator based on Bulk Periodically-Poled LiNbO3 |

| | |Eckardt, RC; Fejer, MM; Byer, RL | |

|295 |1995 |Byer, RL |New Applications Emerge for Nonlinear Optical Materials |

|294 |1995 |Myers, LE; Miller, GD; Eckardt, RC; Fejer, MM; Byer, RL; |Quasi-Phase-Matched 1.064-µm-Pumped Optical Parametric Oscillator in Bulk Periodically Poled LiNbO3 |

| | |Rosenberg, WR | |

| |1990 |Arie, A; Byer, RL |Laser Heterodyne Spectroscopy of 12712 Hyperfine Structure Near 532 nm: Errata |

|293 |1994 |Arie, A; Byer, RL |The Hyperfine Structure of the 127I2P(119)35-0 Transition |

|292 |1994 |Byer, RL |Quasi Phasmatched Nonlinear Materials and Application to Devices |

|291 |1994 |Serkland, DK; Eckrdt, RC; Byer, RL |Continuous-Wve Total-Internal-Reflection Optical Parametric Oscillator Pumped at 1064 nm |

|290 |1994 |Yang, ST; Eckardt, RC; Byer, RL |1.9-Watt CW Ring Cavity KTP Singly Resonant Optical Parametric Oscillator |

|289 |1994 |Arie, A; Byer, RL |Absolute Frequency Stabilization of Diode-Pumped Nd:YAG Lasers |

|288 |1994 |Farinas, AD; Gustafson, EK; Byer, RL |Design and Characterization of a 5.5W, CW, Injection-Locked, Fiber-Coupled, Laser-Diode-Pumped Nd:YAG Miniature-Slab Laser |

|287 |1994 |Arie, A; Bortz, ML; Fejer, MM; Byer, RL |Frequency Stabilization and High Resolution Spectroscopy |

|286 |1994 |Farinas, AD; Gustafson, EK; Byer, RL |Amplitude and Frequency Stability of a 5 W Injection-Locked, Laser-Diode-Pumped, ND: YAG Miniature-Slab Laser |

|285 |1994 |Shine, RJ; Alfrey, AJ; Byer, RL |Conduction-Cooled, Continuous Wave, Diode-Laser-Pumped, Nd:YAG Mini-Slab Laser |

|284 |1994 |Gordon, LA; Eckardt, RC; Byer, RL |Investigations of Diffusion-Bonded Stacked GaAs for Infrared Quasi-Phasematched Parametric Oscillations |

|283 |1993 |Arie, A; Byer, RL |Frequency Stabilization of the 1064-nm Nd:YAG Lasers to Doppler-Broadened Lines of Iodine |

|282 |1993 |Byer, RL; Piskarskas, A |Optical Parametric Oscillation and Amplification |

|281 |1993 |Arie, A; Byer, RL |Laser Heterodyne Spectroscopy of 127 I2 Hyperfine Structure Near 532 nm |

|280 |1993 |Gordon, L; Woods, GL; Eckardt, RC; Route, RR; Feigelson, RS; |Diffusion-Bonded Stacked GaAs for Quasi-Phase-Matched Second-Harmonic Generation of a Carbon Dioxide Laser |

| | |Fejer, MM; Byer, RL | |

|279 |1993 |Arie, A; Bortz, ML; Fejer, MM; Byer, RL |Iodine Spectroscopy and Absolute Frequency Stabilization with the Second Harmonic of the 1319 nm Nd:YAG Laser |

|278 |1993 |Schiller, S; Byer, RL |Quadruply Resonant Optical Parametric Oscillation in a Monolithic Total-Internal-Reflection Resonator |

|277 |1993 |Yang, ST; Eckardt, RC; Byer, RL |Power and Spectral Characteristics of Continuous-Wave Parametric Oscillators: the Doubly to Single Resonant Transition |

|276 |1993 |Byer, RL; Piskarskas |Optical Parametric Oscillation and Amplification Introduction |

|275 |1993 |Yang, ST; Eckardt, RC; Byer, RL |Continuous-Wave Singly Resonant Optical Parametric Oscillator Pumped by a Single-Frequency Resonantly Doubled Nd:YAG Laser |

|274 |1993 |Sampas, NM; Gustafson, EK; Byer, RL |Long-Term Stability of Two Diode-Laser-Pumped Nonplanar Ring Lasers Independently Stabilized to Two Fabry-Perot Interferometers |

|273 |1993 |Shine, RJ; Merrill, TC; Alfrey, AJ; Gustafson, EK; Byer, |Design Considerations for a 50-W CW, Fundamental Mode, Diode-Pumped Solid-State Laser |

|272 |1993 |Sampas, NM; Liu, R; Gustafson, EK; byer, RL |Frequency Stability Measurements of Two Non-Planar Ring Oscillators Independently Stabilized to Two Fabry-Perot Interferometers |

|271 |1993 |Byer, RL |Diode Pumped Solid State Lasers |

|270 |1993 |Arie, A; Byer, RL |Doppler-Free Spectroscopy of Molecular Iodine Near 532 nm |

|269 |1992 |Zimmermann, C; Hänsch, Byer, RL; O'Brien, S; Welch, |Second Harmonic Generation at 972 nm Using a Distributed Bragg Reflection Semiconductor Laser |

|268 |1992 |Arie, A; Gustafson, EK; Byer, RL |Frequency-Stabilized Diode-Laser-Pumped Solid State Lasers: Optical Clocks of the Future |

|267 |1992 |Byer, RL |Advances in Nonlinear Optical Materials and Devices |

|266 |1992 |Schiller, S; Sampas, NM; Byer, RL |Frequency Stabilization of Nd:YAG Lasers |

|265 |1992 |Fejer, MM; Magel, GA; Jundt, DH; Byer, Rl |Quasi-Phase-Matched Second Harmonic Generation: Tuning and Tolerances |

|264 |1992 |Arie, A; Schiller, S; Gustafson, EK; Byer, RL |Absolute Frequency Stabilization of Diode-Laser-Pumped Nd:YAG Lasers to Hyperfine Transitions in Molecular Iodine |

|263 |1992 |Yamada, T; Reed, MK; Byer, RL |Development of a Flashlamp-Pumped, Conduction-Cooled, Nd:Glass Slab Laser |

|262 |1992 |Schiller, S; Byer, RL |Subwavelength Optical Magnetic-Resonance Imaging |

|261 |1992 |Day, T; Gustafson, EK; Byer, RL |Sub-Hertz Relative Frequency Stabilization of Two-Diode Laser-Pumped Nd:YAG Lasers Locked to a Fabry-Perot Interferometer |

|260 |1992 |Schiller, S; Yu, II;Fejer, MM; Byer, RL |Fused-Silica Monolithic Total-Internal-Reflection Resonator |

|259 |1992 |Day, T; Marsland, RA; Byer, RL |Optical Generation of Frequency Stable MM-Wave Radiation Using Diode Laser Pumped Nd:YAG Lasers |

|258 |1992 |Byer, RL |Foreword in New Techno-Economic Paradigm for the 21st Century: The Age of New Engineering, p. 3-6 |

|257 |1991 |Eckardt, RC; Day, T; Gustafson, EK; Byer, RL |Frequency Stable Operation of Nd:YAG Lasers |

|256 |1991 |Jundt, DH; Fejer, MM; Byer, RL; Norwood, RG; Bordui, PF |69% Efficient Continuous-Wave Second-Harmonic Generation in Lithium-Rich Lithium Niobate |

|255 |1991 |Jundt, DH; Magel, GA; Fejer, MM; Byer, RL |Periodically-Poled LiNbO3 for High Efficiency Second Harmonic Generation |

|254 |1991 |Yang, ST; Pohalski, CC; Gustafson, EK; Byer, RL; Feigelson, RS; |6.5-W, 532-nm Radiation by CW Resonant External Cavity Second-Harmonic Generation of an 18-W Nd:YAG Laser in LiB3O5 |

| | |Raymakers, RJ; Route, RK | |

|253 |1991 |Schiller, S.; Byer, RL |High-Resolution Spectroscopy of Whispering Gallery Modes in Large Dielectric Spheres |

|252 |1991 |Eckardt, RC; Byer, RL |Measurement of Nonlinear Optical Coefficients by Phase-Matched Harmonic Generation |

|251 |1991 |Schellenberg, FM; Byer, RL; Miller, RD; French, RH; Kano, SS; |Linear and Nonlinear Optics in Substituted Plysilanes |

| | |Takahashi, Y; Shiraki, Y; Ito, R | |

|250 |1991 |Schellenberg, FM; Byer, RL; French, RH; Miller, RD |Vacuum-Ultraviolet Spectroscopy of Dialkyl Polysilanes |

|249 |1991 |Yoo, SJB; Fejer, MM; Byer, RL; Harris, JS Jr. |Second-Order Susceptibility in Asymmetric Quantum Wells and Its Control by Proton Bombardment |

|248 |1991 |Eckardt, RC; Nabors, CD; Kozlovsky, WJ; Byer, RL |Optical Parametric Oscillator Frequency Tuning and Control |

|247 |1991 |Yang, ST; Pohalski, CC; Gustafson, EK; Byer, RL; Feigelson, RS; |3.5 Watt CW 532 Radiation by Resonant External Cavity SHG of an 8.5 Watt Nd:YAG Laser in LBO |

| | |Raymakers, RJ; Route,RK | |

|246 |1990 |Nabors, CD; Byer, RL |Monolithic Optical Parametric Oscillatos for Quantum Optics |

|245 |1990 |Day, T; Gustafson, EK; Byer, RL |Active Frequency Stabilization of Diode Laser Pumped, Nonplanar Ring Oscillators |

|244 |1990 |Reed, MK; Byer, RL |The Output Beam Quality of a Q-Switched Nd:Glass Slab Laser |

|243 |1990 |Reed, MK; Byer, RL |Mode-Locked Operation of a Nd:YLF Laser and Amplification in a q-Switched Nd:Glass Slab Laser |

|242 |1990 |Basu, S; Byer, RL |Diode-Pumped Moving-Disc Laser: A New Configuation for High Average Power Generation |

|241 |1990 |Schellenberg, FM; Byer, RL; Miller, RD; Kano, S |Two-Photon Processes in Substituted Plysilanes |

|240 |1990 |Eckhardt, RC Masuda, H; Fan, YX; Byer, RL |Absolute and Relative Nonlinear Optical Coefficients of KDP, KD*P, BaB2O4, LiIO3, MgO:LiNbO3 and KTP Measured by Phase-Matched Second-Harmonic Generation |

|239 |1990 |Jundt, DH; Fejer, MM; Byer, RL |Growth of Optical Quality Sapphire Single Crystal Fibers |

|238 |1990 |Nabors, CD; Yang, ST; Day, T; Byer, RL |Coherence Properties of a Doubly Resonant Monolithic Optical Parametric Oscillator |

|237 |1990 |Sudo, S.; Yokohama, I; Cordova-Plaza, A; Fejer, MM; Byer, RL |Uniform Refractive Index Cladding for LiNbO3 Single-Crystal Fibers |

|236 |1990 |Basu, S.; Byer, RL |Average Power Limits of Diode-Laser-Pumped Solid State Lasers |

|235 |1990 |Hertz, HM; Byer, RL |Tomographic Imaging of Mirometer-Sized Optical and Soft X-Ray Beams |

|234 |1990 |Basu, S.; Byer, RL; Unternahrer, JR |Slab Lasers Move to Increase Power |

|233 |1990 |Day, T; Farinas, AD; Byer, RL |Demonstration of a Low Bandwidth 1.06µm Optical Phase-Locked Loop for Coherent Homodyne Communication |

|232 |1990 |Schellenberg, FM; Byer, RL; Miller, RD |Two-Photon-Induced Birefringence in Polysilanes |

|231 |1990 |Schellenberg, FM; Byer, RL; Miller, RD |Fabrication of Birefringent Gratings Using Nonlinear Polysilane Thin Films |

|230 |1990 |Day, T; Gustafson, EK; Byer, RL |Active Frequency Stabilization of a 1.062-µm, NdGGG, Diode-Laser-Pumped Nonplanar Ring Oscillator to Less than 3 Hz of Relative Linewidth |

|229 |1990 |Jundt, DH; Fejer, MM; Byer, RL |Optical Properties of Lithium-Rich Lithium Niobate Fabricated by Vapor Transport Equilibration |

|228 |1990 |Basu, S.; Byer, RL |Short Pulse Injection Seeding of Q-Switched Nd: Glass Laser Oscillators - Theory and Experiment |

|227 |1990 |Magel, GA; Fejer, MM; Byer, RL |Quasi-Phase-Matched Second-Harmonic Generation of Blue Light in Periodically Poled LiNbO3 |

|226 |1990 |Reed, M; Byer, RL |A Nd:Glass Slab Laser for X-Ray Lithography |

|225 |1990 |Day, T; Gustafson, EK; Byer, RL |Active Frequency Stabilization of Monolithic, Diode Laser Pumped, Solid State Lasers |

|224 |1989 |Magel, GA; Lim, EJ; Fejer, MM; Byer, RL |Second Harmonic Generation in Periodically-Poled LiNbO3 |

|223 |1989 |Byer, RL |Ultranarrow Linewidth Solid State Oscillators |

|222 |1989 |Jundt, DH; Fejer, MM; Byer, RL |Characterization of Single-Crystal Sapphire Fibers for Optical Power Delivery Systems |

|221 |1989 |Nabors, CD; Farinas, AD; Day, T; Yang, ST; Gustafson, EK; Byer, RL|Injection Locking of a 13-W CW Nd: YAG Ring Laser |

|220 |1989 |Nabors, CD; Eckardt, RC; Kozlovsky, WJ; Byer, RL |Efficient, Single-Axial-Mode Operation of a Monolithic MgO:LiNbO3 Optical Prametric Oscillators |

|219 |1989 |Byer, RL |Solida State Lasers for Particle Accelerator Applications |

|218 |1989 |Byer, RL |Frequency Stable High Power Lasers in Space |

|217 |1989 |Jundt, DH; Fejer, MM; Byer, RL |Growth and Optical Properties of Single-Crystal Sapphire Fibers |

|216 |1989 |Byer, RL |From Klystrons to Lasers |

|215 |1989 |Day, T; Nilsson, AC; Fejer, MM; Farinas, AD; Gustafson, EK; |30 Hz-Linewidth, Diode-Laser-Pumped, ND:GGG Nonplanar Ring Oscillators by Active Frequency Stabilizaation |

| | |Nabors, CD; Byer, RL | |

|214 |1989 |Nilsson, AC; Day, T; Farinas, AD; Gustafson, EK; Byer, RL |Narrow Linewidth Operation of Diode-Laser-Pumped Nonplanar Ring Oscillators |

|213 |1989 |Fan, YX; Eckardt, RC; Byer, RL; Chen, C; Jiang, AD |Barium Borate Optical Parametric Oscillator |

|212 |1989 |Trail, JA; Byer, RL |Compact Scanning Soft-X-Ray Microscope Using a Laser-Produced Plasma Source and Normal-Incidence Multilayer Mirros |

|211 |1989 |Lacy, RA; Nilsson, AC; Byer, RL; Silfvast, WT; Wood, OR II; |Photoionization-Pumped Gain at 185 nm in a Laser-Ablated Indium Plasma |

| | |Svanberg, S | |

|210 |1989 |Lim, EJ; Fejer, MM; Byer, RL; Kozlovsky, WJ |Blue Light Generation by Frequency Doubling in Periodically Poled Lithium Niobate Channel Waveguide |

|209 |1989 |Nilsson, AC; Gustafson, EK; Byer, RL |Eigenpolarization Theory of Monolithic Nonplanar Ring Oscillators |

|208 |1989 |Byer, RL |Nonlinear Frequency Conversion Enhances Diode-Pumped Lasers |

|207 |1989 |Fejer, MM; Yoo, SJB; Byer, RL; Harwit, A; Harris, JS Jr. |Observation of Extremely Large Quadratic Susceptibility at 9.6 - 10.8µm in Electric-Field-Biased A1GaAs Quantum Wells |

|206 |1989 |Lim, EJ; Fejer, MM; Byer, RL |Second-Harmonic Generation of Green Light in Periodically Poled Planar Lithium Niobate Waveguide |

|205 |1989 |Kozlovsky, WJ; Nabors, CD; Eckardt, RC; Byer, RL |Monolithic MgO:LiNbO3 Doubly Resonant Optical Parametric Oscillator Pumped by a Frequency-Doubled Diode-Laser-Pumped Nd:YAG Laser |

|204 |1989 |Schellenberg, FM; Byer, RL; Zavislan, J; Miller, RD |Nonlinear Polysilane Thin Films |

|203 |1989 |Reed, MK; Byer, RL |Performance of a Conduction Cooled Nd:Glass Zig Zag Slab Laser |

|202 |1988 |Trail, JA; Byer, RL |First Images from the Stanford Tabletop Scanning Soft X-Ray Microscope |

|201 |1988 |Trail, JA; Byer, RL; Kortright, JB |The Stanford Tabletop Scanning X-Ray Microscope |

|200 |1988 |Faris, GW; Byer, RL |Three-Dimensional Beam-Deflection Optical Tomography of a Supersonic Jet |

|199 |1988 |Kozlovsky, WJ; Gustafson, EK; Eckardt, RC; Byer, RL |Efficient Monolithic MgO:LiNbO3 Singly Resonant Optical Parametric Oscillator |

|198 |1988 |Kozlovsky, WJ; Nabors, CD; Byer, RL |High Efficiency Second Harmonic Generation of a CW Frequency Stable Laser |

|197 |1988 |Fan, YX; Eckardt, RC; Byer, RL; Nolting, J; Wallenstein, R |A Violet to Mid-Infrared Barium Borate Optical Parametric Oscillator |

|196 |1988 |Fan, YX; Eckardt, RC; Byer, RL |Visible BaB-2O4 Optical Parametric Oscillator Pumped at 355 nm by a Single-Axial-Mode Pulsed Source |

|195 |1988 |Schellenberg, FM; Byer, RL; Zavislan, J; Miller, RD |Nonlinear Polysilane Thin Films |

|194 |1988 |Kozlovsky, WJ; gustafson, EK; Eckardt, RC; Byer, RL |OPO Performance with a Long Pulse Length, Single Frequency Nd:YAG Laser Pump |

|193 |1988 |Nilsson, AC; Kane, TJ; Byer, RL |Monolithic Nonplanar Ring Lasers: Resistance to Optical Feedback |

|192 |1988 |Nabors, CD; Kozlovsky, WJ, Byer, RL |Efficient Second Harmonic Generation of a Diode-Pumped CW Nd:YAG Laser Using an Externally Resonant Cavity |

|191 |1988 |Trail, JA; Byer, RL |Scanning Soft X-Ray Microscopy |

|190 |1988 |Fan, TY; Byer, RL |Diode Laser-Pumped Solid-State Lasers |

|189 |1988 |Fan, TY; Huber, G.; Byer, RL; Mitzscherlich, P |Spectroscopy and Diode Laser-Pumped Operation of Tm, Ho:YAG |

|188 |1988 |Kozlovsky, WJ; Nabors, CD; Byer, RL |Efficient Second Harmonic Generation of a Diode-Laser-Pumped CW Nd:YAG Laser Using Monolithic MgO:LiNbO3 External Resonant Cavities |

|187 |1988 |Basu, S.; Byer, RL |Continuous-Wave Mode-Locked Nd:Glass Laser Pumped by a Laser Diode |

|186 |1988 |Lago, A; Wallenstein, R; Chen, C; Fan, YX; Byer, RL |Coherenet 70.9-nm Radiation Generated in Neon by Frequency Tripling the Fifth Harmonic of a Nd:YAG Laser |

|185 |1988 |Cordova-Plaza, A; Fan, TY; Digonnet, JF; Byer, RL; Shaw, HJ |Nd:MgO:LiNbO3 Continuous-Wave Laser Pumped by a Laser Diode |

|184 |1988 |Reed, MK; Kozlovsky, WJ; Byer, RL; Harnagel, GL; Cross, PS |Diode-Laser-Array-Pumped Neodymium Slab Oscillators |

|183 |1988 |Huber, G.; Mitzscherlich, P.; Fan, TY; Byer, RL |Energy Transfer and Inversion Saturation in Tm, Ho:YAG |

|182 |1988 |Byer, RL |Diode Laser-Pumped Solid-State Lasers |

|181 |1988 |Trail, JA; byer, RL; Barbee, TW Jr. |Measurement of Soft-X-Ray Multilayer Mirror Reflectance at Normal Incidence Using Laser-Produced Plasmas |

|180 |1988 |Byer, RL |Solid State Lasers - The Next 10 Years |

|179 |1987 |Faris, GW; Byer, RL |Beam Deflection Optical Tomography Facititates Flow Analysis |

|178 |1987 |Faris, GW; Byer, RL |Quantitative Three-Dimensional Optical Tomographic Imaging of Supersonic Flows |

|177 |1987 |Kozlovsky, WJ; Nabors, CD; Byer, RL |Second-Harmonic Generation of a Continuous-Wave Diode-Pumped Nd:YAG Laser Using an Externally Resonant Cavity |

|176 |1987 |Eckardt, RC;Fan, YX; Fejer, MM; Kozlovsky, WJ; |Recent Developments in Nonlinear Optical Materials |

|175 |1987 |Byer, RL; Basu, S; Fan, TY; Kozlovsky, WJ; Nabors, CD; Nilsson, A;|Diode Pumped Solid-State Laser Oscillators for Spectroscopic Applications |

| | |Huber, G | |

|174 |1987 |Luh, YS; Fejer, MM; Byer, RL; Feigelson, RS |Stoichiometric LiNbO3 Single-Crystal Fibers for Nonlinear Optical Applications |

|173 |1987 |Sudo, S.; Cordova-Plaza, A; byer, RL; Shaw, H.J. |MgO:LiNbO3 Single-Crystal Fiber with Magnesium-Ion In-Difused Cladding |

|172 |1987 |Fan, TY; Byer, RL |Continuous-Wave Operation of a Room-Temperature, Diode-Laser-Pumped, 946-nm Nd:YAG Laser |

|171 |1987 |Fan, Ty; Huber, G; Byer, RL; Mitzscherlich, P |Continuous-Wave Operation at 2.1µm of a Diode-Laser-Pumped, Tm-Sensitized Ho:Y3A15O12 Laser at 300 K |

|170 |1987 |Reed, MK; Byer, RL |Performance of a Conduction Cooled Nd:Glass Slab Laser |

|169 |1987 |Basu, S; Byer, Rl |A Fixed Cavity, Moving Slab Nd:Glass Laser |

|168 |1987 |Fan, TY; Huang, CE; Hu, BQ; Eckardt, RC; Fan, YX; Byer, RL; |Second Harmonic Generation and Accurate Index of Refraction Measurements in Flux-Grown KTiOPO2 |

| | |Feigelson, RS | |

|167 |1987 |Fan, YX; Eckardt, RC; Byer, RL; Route, RK; Feigelson, RS |Nonlinear Infrared Frequency Conversion in AgGaS2 and AgGaSe2 |

|166 |1987 |Fan, TY; Byer, RL |Nonradiative Processes and Blue Emission in Nd:YLF |

|165 |1987 |Fan, TY; Byer, RL |Modeling and CW Operation of a Quasi-Three-Level 946 nm Nd:YAG Laser |

|164 |1987 |Kane, TJ; Kozlovsky, WJ; Byer, RL; Byvik, CE |Coherent Laser Radar at 1.06 µm Using Nd:YAG Lasers |

|163 |1987 |Kane, TJ; Nilsson, AC; Byer, RL |Frequency Stability and Offset Lockiing of a Laser-Diode-Pumped Nd:YAG Monolithic Nonplanar Ring Oscillator |

|162 |1987 |Faris, GW; Byer, RL |Beam-Deflection Optical Tomography of a Flame |

|161 |1987 |Faris, GW; Byer, RL |Beam-Deflection Optical Tomography |

|160 |1987 |Nightingale, JL; Silva, WJ; Reade, GE; Rybicki, A; Kozlovsky, WJ; |Fifty Percent Conversion Eficiency Second Harmonic Generation in Magnesium Oxide Doped Lithium Niobate |

| | |Byer, RL | |

|159 |1987 |Chen, C; Fan, YX; Eckardt, RC; Byer, RL |Recent Developments in Barium Borate |

|158 |1986 |Kozlovsky, WJ; Fan, TY; Byer, RL |Diode-Pumped Continuous-Wave Nd:Glass Laser |

|157 |1986 |Fan, TY; Byer, RL |Two-Step Excitation and Blue Fluorescence Under Continuous-Wave Pumping in Nd:YLF |

|156 |1986 |Basu, S; Byer, Rl |40-W Average Power, 30-Hz Moving-Slab Nd:Glass Laser |

|155 |1986 |Basu, S; Kane, TJ; Byer, Rl |A Proposed 1kW Average Power Moving Slab Nd:Glass Laser |

|154 |1986 |Luh, YS; Feigelson, RS; Fejer, M; Byer, RL |Ferroelectric Domain Structures in LiNbO3 |

|153 |1986 |Reed, MK; Yamada, T; Byer, RL |Conduction Cooling of Nd:Glass Slab Lasers |

|152 |1986 |Eckardt, RC; Fan, YX; Byer, RL; Marquardt, CL; Storm, ME; |Broadly Tunable Infrared Parametric Oscillator Using AgGaSe2 |

| | |Esterowitz, L | |

|151 |1986 |Faris, GW; Byer, RL |Quantitative Optical Tomography Imaging of a Supersonic Jet |

|150 |1986 |Nightingale, JL; Byer, RL |Monolithic Nd:YAG Fiber Laser |

|149 |1986 |Bennett, KE; Byer, Rl |Fan-Beam-Tomography Noise Theory |

|148 |1986 |Magel, GA; Jundt, DH; Fejer, MM; Byer, Rl |Low-Loss Single-Crystal Sapphire Optical Fibers |

|147 |1986 |Fan, TY; Dixon, GJ; Byer, RL |Efficient GaAlAs Diode-Laser-Pumped Operation of Nd:YLF at 1.047µm with Intracavity Doublng to 523.6 nm |

|146 |1986 |Kane, TJ; Kozlovsky, WJ; Byer, Rl |62-dB-Gain Multiple-Pass Slab Geometry Nd:YAG Amplifier |

|145 |1986 |Fejer, MM; Digonnet, MJF; Byer, RL |Generaton of 22 mW of 532--nm Radiation by Frequency Doubling in Ti:MgO:LiNbO3 Waveguides |

|144 |1986 |Fan, TY; Cordova-Plaza, A; Digonnet, MJF; Byer, RL; Shaw, HF |Nd:MgO:LiNbO3 Spectrocopy and Laser Devices |

|143 |1985 |Trail, JA; Byer, RL |X-Ray Microscope Using Multilayer Optics with a Laser-Produced Plasma Source |

|142 |1985 |Nightingale, JL; Byer, RL |A Guided Wave Monolithic Resonator Ruby Fiber Laser |

|141 |1985 |Eckhardt, RC; Fan, YX; Byer, RL; Route, RK; Feigelson, RS |Efficient Second Harmonic Generation of 10-µm Radiation in AgGaSe2 |

|140 |1985 |Fejer, MM; Nightingale, J; Magel, G; Byer, RL |Single-Crystal Fiber Applications Include Nonlinear Optical Effect |

|139 |1985 |Fejer, MM; Magel, GA; Byer, RL |High-Speed High-Resolution Fiber Diameter Variation Measurement System |

|138 |1985 |Kane, TJ; Eggleston, JM; Byer, RL |The Slab Geometry Laser-Part II: Thermal Effects in a Finite Slab |

|137 |1985 |Reed, M.; Kuhn, K; Unternahrer, J; Byer, RL |Static Gas Conducton Cooled Slab Geometry Nd:Glass Laser |

|136 |1985 |Digonnet, M; Fejer, M.; Byer, RL |Characterization of Proton-Exchanged Waveguides in MgO:LiNbO3 |

|135 |1985 |Kane, TJ; Byer, RL |Monolithic, Unidirectional, Single-Mode Nd:YAG Ring Laser |

|134 |1985 |Zhou, B; Kane, TJ; Dixon, GJ; Byer, Rl |Efficient, Frequency-Stable Laser-Diode-Pumped Nd:YAG Laser |

|133 |1985 |Byer, RL; Dixon, GJ; Kane, TJ; Kozlovsky, W |Frequency Doubled, Laser Diode Pumped, Miniature, Nd:YAG Oscillator-Progress Toward an All Solid State Sub-Kilohertz Linewidth Coherent Source |

|132 |1985 |Fejer, MM; Nightingale, J; Magel, G; Kozlovsky, W; Fan, TY; Byer, |Nonlinear Optics in Single Crystal Fibers |

| | |RL | |

|131 |1985 |Byer, RL |Efficient Frequency Conversion of Laser Sources in Nonlinear Crystals |

|130 |1985 |Kane, RJ; Byer, RL |Modeling Studies and Experimental Performance of Slab Geometry Lasersq |

|129 |1985 |Kane, RJ; Byer, RL |Miniatute Laser Diode Pumped Nd:YAG Lasers |

|128 |1985 |Byer, RL; Gustafson, EK; Trebino, R |Tunable Solid State Lasers for Remote Sensing |

|127 |1984 |Fejer, MM; Nightingale, JL; Magel, GA; Byer, RL |Laser-Heated Miniature Pedestal Growth Apparatus for Single-Crystal Optical Fibers |

|126 |1984 |Fejer, MM; Nightingale, JL; Magael, GA; Byer, RL |Laser Assisted Growth of Optical Quality Crystal Fibers |

|125 |1984 |Fan, YX; Eckardt, RC; Byer, RL; Route, RK; Feigelson, RS |AgGaS2 Infrared Parametric Oscillator |

|124 |1984 |Bennett, KE; Faris, GW; Byer, RL |Experimental Optical Fan Beam Tomography |

|123 |1984 |Kane, TJ; Zhou, B; Byer, RL |Potential for Coherent Doppler Wind Velocity Lidar Using Neodymium Lasers |

|122 |1984 |Fan, YX; Byer, RL |Progress in Optical Parametric Oscillators |

|121 |1984 |Bennett, K; Byer, RL |Optical Tomography: Experimental Verification of Noise Theory |

|120 |1984 |Gustafson, EK; Byer, RL |Coherent Anti-Stokes Raman Scattering fro Small Volumes |

|119 |1984 |Eggleston, JM; Kane, TJ; Kuhn, K; Unternahrer, J; Byer, RL |The Slab Geometry Laser-Part I: Theory |

|118 |1984 |Byer, RL; Kuhn, K; Reed, M; Trail, J |Progress in High Peak and Average Power Lasers for Soft X-ray Production |

|117 |1984 |Park, YK; Giuliani, G; Byer, RL |Single Axial Mode Operation of a Q-Switched Nd:YAG Oscillator by Injection Seeding |

|116 |1983 |Kane, TJ; Eckardt, RC; Byer, RL |Reduced Thermal Focusing and birefringence in Zig-Zag Slab Geometry Crystalline Lasers |

|115 |1983 |Eggleston, JM; Kane, T; Kuhn, K; Byer, RL |Progress in Slab Geometry Solid State Lasers |

|114 |1983 |Bennett, K; Byer, RL |Variable Laser Attenuators-Old and New |

|113 |1983 |Gustafso, EK; Byer, RL |High Resolution CW CARS Spectroscopy in a Supersonic Expansion |

|112 |1983 |Byer, Rl |Stable Single-Axial-Mode Operatio of a High-Power Nd-YAG Oscillator by Injection Locking |

|111 |1983 |Byer, RL; Kane, T; Eggleston, J; Long, SY |Solid State Laser Sources for Remote Sensing |

|110 |1982 |Fejer, MM; Byer, RL; Feigelson, R; Kway, W |Growth and Characterization of Single Crystal Refractory Oxide Fibers |

|109 |1982 |Gustafson, EK; McDaniel, JC; Byer, RL |High-Resolution Continuous-Wave Coherent Anti-Stokes Raman Spectroscopy in a Suprsonic Jet |

|108 |1982 |Sun, YL; Byer, RL |Submegahertz Frequency-Stabilized Nd:YAG Oscillator |

|107 |1982 |Eggleston, JM; Kane, TJ; Unternahrer, J; Byer, RL |Slab-Geometry Nd:Glass Laser Performance Studies |

|106 |1982 |McDaniel, JC; Baganoff, D; Byer, RL |Density Measurement in Compressible Flows Using Off-Resonant Laser-Induced Fluorescence |

|105 |1982 |Koenig, F.; Oesterlin, P.; Byer, RL |Coherent Anti-Stokes Raman Scattering (CARS) of Large C2H4 ArClusters |

|104 |1982 |Wolfe, DC Jr; Byer, RL |Model Studies of Laser Absorption Computed Tomography for Remote Air Pollution Measurement |

|103 |1982 |Byer, RL; Endemann, M |Remote Measurements of Trace Species in the Troposphere |

|102 |1981 |Gustafson, EK; McDaniel, JC; Byer, RL |CARS Measurement of Velocity in a Supersonic Jet |

|101 |1981 |Eggleston, JM; Giuliani, G; Byer, RL |Radial Intensity Filters Using Radial Birefringent Elements |

|100 |1981 |Endemann,M; Byer RL |Simulataneous Remote Measurements of Atmospheric Temperature and Humidity Using a Continuously Tunable IR Lidar |

|99 |1981 |Byer, RL; Park, YK; Feigelson, RS; Kway, WL |Efficient Second-Harmonic Generation of Nd;YAG Laser Radiation Using Warm Phasematching LiNbO3 |

|98 |1981 |Duncan, MD; Oesterlin, P; Koenig, F; Byer, RL |Observation of Saturation Broadening of the Coherent Anti-Stokes Raman Spectrum (CARS) of Acetylene in a Pulsed Molecular Beam |

|97 |1981 |Park, YK; Byer, RL |Electronic Linewidth Narrowing Method for Single Axial Mode Operation of Q-switched Nd:YAG Lasers |

|96 |1981 |Duncan, MD; Osterlin, P; Byer, RL |Pulsed Supersonic Molecular-Beam Coherent Anti-Stokes Raman Spectroscopy of C2H2 |

|95 |1981 |Byer, RL; Duncan, MD |A 100 µsec, Relliable, 10 Hz Pulsed Supersonic Molecular Beam Source |

|94 |1981 |Byer, RL; Duncan, M; Gustafson, E; Oesterin, P.; Konig, F |Pulsed and CW Molecular Beams CARS Spectroscopy |

| |1980 |Baumgartner, RA; Byer, RL |Correction: Optical Parametric Amplification |

|93 |1980 |Byer, Rl |The Genration of Tunable Infrared Radiation via Nonlinear Interactions |

|92 |1980 |Giuliani, G.; Park, YK; Byer, RL |Radial Birefringent Element and Its Application to Laser Resonator Design |

|91 |1980 |Giuliani, G.; Park, YK; Byer, RL |Radial Birefringent Element and Its Application to Laser Resonator Design |

|90 |1980 |Endemann, M.; Byer, RL |Remote Single-Ended Measurements of Atmospheric Temperature and Humidity at 1.77µm Using a Continuously Tunable Source |

|89 |1980 |Eggleston, J.; Byer, RL |Steady-State Stimulated Raman Scattering by a Multimode Laser |

|88 |1980 |Bennett, K; Byer, RL |Computer-Controllable Wedged-Plate Optical Variable Attenuator |

|87 |1980 |Park, YK; Giuliani, G; Byer, RL |Stable Single-Axial-Mode Operation of an Unstable-Resonator Nd:YAG Oscillator by Injection Locking |

|86 |1980 |Byer, Rl |Frequency Conversion via Stimulated Raman Scattering |

|85 |1980 |Trutna, WR; Byer, RL |Multiple-Pass Raman Gain Cell |

|84 |1979 |Wolfe, DC; Byer, RL |Air Pollution Monitoring by Computed Tomography |

|83 |1979 |Trutna, WR; Park, YK; Byer, RL |The Dependence of Raman Gain on Pump Laser Bandwidth |

|82 |1979 |Koroteev, NI; Endemann, M; Byer, RL |Resolved Structure Within the Broad-Band Vibrational Raman Line of Liquid H2O from Polarization Coherent Anti-Stokes Raman Spectroscopy |

|81 |1979 |Brosnan, SJ; Byer, RL |Optical Parametric Oscillator Threshold and Linewidth Studies |

|80 |1979 |Baumgartner, RA; Byer, RL |Optical Parametric Amplification |

|79 |1979 |Byer, RL; Shepp, LA |Two-Dimensional Remote Air-Pollution Monitoring via Tomography |

|78 |1979 |Duncan, MD; Byer, RL |Very High Resolution CARS Spectroscopy in a Molecular Beam |

|77 |1979 |Koroteev, NI; Endemann, M; Byer, RL |Coherent Raman Ellipsometry of Liquid Water: New Data on the Vibrational Stretching Region |

|76 |1979 |Byer, Rl |Nd:YAG Pumped Tunable Sources and Applications to ?3 Spectroscopy |

|75 |1978 |Byer, RL; Trutna, WR |16-µm Generation by CO2-Pumped Rotational Raman Scattering in H2 |

|74 |1978 |Baumgartner, RA; Byer, RL |Continuously Tunable IR Lidar with Applications to Remote Measurements of SO2 and CH4 |

|73 |1978 |Byer, RL; Trutna, WR |16-µm Generation by CO2-Pumped Rotational Raman Scattering in H2 |

|72 |1978 |Byer, RL; Herbst, RL |The Unstable-Resonator YAG |

|71 |1978 |Baumgartner, RA; Byer, RL |Remote SO2 Measurements at 4 µm with a Continuously Tunable Source |

|70 |1978 |Henesian, MA; Byer, RL |High-Resolution CARS Line-Shape Function |

|69 |1978 |May, AD; Henesian, MA; Byer, RL |The CW Coherent Anti-Stokes Raman Spectrum of the ?1 Band of CH4 and Its Pressur eDependence |

|68 |1977 |Henesian, MA; Duncan, MD; Byer, RL; May, AD |Absolute Raman Frequency Measurement of the Q(2) Line in D2 Using CW CARS |

|67 |1977 |Komine, H.; Byer, RL |Optically Pumped Hg2 Studies |

|66 |1977 |Komine, H.; Byer, RL |Optically Pumped Atomic Mercury Photodissociation Laser |

|65 |1977 |Herbst, RL; Komine, H; Byer, Rl |A 200 mJ Unstable Resonator Nd:YAG Oscillator |

|64 |1977 |Brosnan, SJ; Fleming, RN; Herbst, RL; Byer, Rl |Tunable Infrared Generation by Coherent Raman Mixing in H2 |

|63 |1977 |Byer, RL |Remote Monitoring Techniques |

|62 |1977 |Byer, RL |Parametric Oscillators and Nonlinera Materials |

|61 |1977 |Byer, RL; Herbst, RL |Parametric Oscillation and Mixing |

|60 |1977 |Byer, RL; Paul, J.; Duncan, M |A Wavelength Meter |

|59 |1976 |Henesian, MA; Kulevskii, L; Byer, RL |CW High-Resolution CAR Spectroscopy of the Q(?1) Raman Line of Methane |

|58 |1976 |Byer, RL |High Energy Tunable IR Source and Applications |

|57 |1976 |Byer, RL |A 16-µm Source for Laser Isotope Enrichment |

|56 |1976 |Choy, MM; Byer, RL |Accurate Second-Order Susceptibility Measurements of Visible and Infrared Nonlinear Crystals |

|55 |1976 |Henesian, MA; Kulevskii, L; Byer, RL; Herbst, RL |CW High-Resolution CAR Spectroscopy of H2, D2 and CH4 |

|54 |1976 |Henesian, MA; Herbst, RL; Byer, RL |Optically Pumped Superfluorescent Na2 Molecular Laser |

|53 |1976 |Roundy, CB; Byer, Rl |Pyroelectric Sputtered Thin Film Detectors |

|52 |1976 |Henesian, MA; Byer, RL; Kulevskii, L |Collisionally Narrowed Lineshape of Raman Q Branch Lines of H2 and D2 |

|51 |1976 |Byer, RL |Parametric Oscillators |

|50 |1975 |Byer, RL |Initial Experiments with a Laser Driven Stirling Engine |

|49 |1975 |Komine, H.; Byer, RL |Proposed Atomic Mercury Anti-Stokes Frequency Converter |

|48 |1975 |Byer, Rl |Review: Remote Air Pollution Measurement |

|47 |1975 |Byer, RL |Nonlinear Optical Phenomena in Oxides and Application to a Tunable Coherent Spectrometer |

|46 |1975 |Choy, MM; Ciraci, S.; Byer, RL |Bond-Orbital Model for Second-Order Susceptibilities |

|45 |1975 |Byer, RL |Optical Parametric Oscillators |

|44 |1975 |Byer, RL; Herbst, RL; Fleming, RN |A Broadly Tunable IR Source |

|43 |1974 |Byer, RL; Herbst, RL; Feigelson, RS; Kway, WL |Growth and Application of [01.4] LiNbO3 |

|42 |1974 |Herbst, RL; Fleming, RN; Byer, RL |A 1.4- 4-µm High Energy Angled-Tuned LiNbO3 Parametric Oscillator |

|41 |1974 |Begley, RF; Harvey, AB; Byer, RL; Hudson, BS |A New Spectroscopic Tool: Coherent Anti-Stokes Raman Spectroscopy |

|40 |1974 |Begley, RF; Harvey, AB; Byer, RL |Coherent Anti-Stokes Raman Spectroscopy |

|39 |1974 |Begley, RF; Harvey, AB; Byer, RL; Hudson, BS |Raman Spectroscopy with Intense, Coherent, Anti-Stokes Beams |

|38 |1974 |Chemla, DS; Batifol, E; Byer, RL; Herbst, RL |Optical Backward Mixing in Sodium Nitrite |

|37 |1974 |Roundy, CB; Byer, RL;Philio, DW; Kuizenga, DJ |A 170 psec Pyroelectric Detector |

|36 |1974 |Henningsen, T; Garbuny, M.; Byer, RL |Remote Detection of CO by Parametric Tunable Laser |

|35 |1974 |Byer, RL; Begley, RF; Stewart, GR |Superconducting, Magnetically Levitated Merry-Go-Round |

|34 |1974 |Byer, RL; Choy, MM, Herbst, RL; Chemla, DS; Feigelson, RS |Second Harmonic Generation and Infrared Mixing in AgGaSe2 |

|33 |1974 |Chemla, DS; Begley, RF, Byer, RL |Experimental and Theoretical Studies of Third-Harmonic Generation in the Chalcopyrite CdGeAs2 |

|32 |1974 |Byer, RL |Nonlinear Optical Phenomena and Materials |

|31 |1974 |Byer, RL |Kerr Effects |

|30 |1974 |Roundy, CB; Byer, RL |Sensitive Pyroelectric Detectors |

|29 |1973 |Byer, RL; Garbuny, M |Pollutant Detection by Absorption Using Mie Scattering and Topographic Targets as Retroreflectors |

|28 |1973 |Pierce, DT; Byer, RL |Experiments on the Interactions of Light and Sound for the Advanced Laboratory |

|27 |1973 |Roundy, CB; Byer, RL |Sensitive LiTaO3 Pyroelectric Detector |

|26 |1973 |Byer, RL |Parametric Oscillators |

|25 |1972 |Roundy, CB; Byer, RL |Subnanosecond Pyroelectric Detector |

|24 |1972 |Kildal, H.; Begley, RF;Choy, MM;Byer, RL |Efficient Second and Third Harmonic Generaation of 10.6µ in CdGeAs2 |

|23 |1972 |Roundy, CB; Byer, RL |A Subnanosecond Pyroelectric Detector |

|22 |1972 |Herbst, RL; Byer, RL |Singly Resonant CdSe Infrared Parametric Oscillator |

|21 |1972 |Byer, RL; Herbst, RL; Kildal, H.; Levenson, MD |Optically Pumped Molecular Iodine Vapor-Phase Laser |

|20 |1972 |Byer, RL; Roundy, CB |Pyroelectric Coefficient Direct Measurement Technique and Application to a nsec Response Time Detector |

|19 |1971 |Herbst, RL; Byer, RL |Efficient Parametric Mixing in CdSe |

|18 |1971 |Kildal, H.; Byer, RL |Comparison of Laser Methods for the Remote Detection of Atmospheric Pollutants |

|17 |1971 |Byer, RL; Kildal, H.; Feigelson, RS |CdGeAS2 -A New Nonlinear Crystal Phasematchable at 10.6µm |

|16 |1971 |Kildal, H.; Byer, RL |Monitoring Air Pollution |

|15 |1971 |Byer, Rl |The Q-Swwitched Tunable Laser in Light Scattering Experiments |

|14 |1970 |Byer, RL; Herbst, RL |Constant Dispersion Rotating Grating Q Switch for a CO2 Laser |

|13 |1970 |Byer, Rl |Recent Advances in Nonlinear Optical Materials |

|12 |1970 |Wang, SC; Byer, RL, Siegman, AE |Observation of an Enhanced Lamp Dip with a Pure Xe Gain Cell Inside a 3.51-µ HE-Xe Laser |

|11 |1970 |Byer, RL; Young, JF; Feigelson, RS |Growth of High-Quality LiNbO3 |

|10 |1970 |Kildal, H.; Byer, RL |Stimulated Compton Scattering |

|9 |1969 |Byer, RL; Kovrigin, A, Yung, JF |A CW Ring-Cavity Parametric Oscillator |

|8 |1969 |Kovrigin, AI; Byer, RL |Stability Factor for Optical Parametric Oscillators |

|7 |1969 |Byer, RL; Harris, SE; Kuizenga, DJ; Young, JF; |Nonlinear Optical Properties of Ba2NaNb5O15 in the Tetragonal Phase |

|6 |1968 |Byer, RL; Oshman, MK; Young, JF, Harris, SE |Visible CW Parametric Oscillator |

|5 |1968 |Byer, RL; Harris, SE |Power and Bandwidth of Spontaneous Parametric Emisson |

|4 |1967 |Harris, SE; Oshman, MK, Byer, RL |Observation of Tunable Optical Parametric Fluorescence |

|3 |1967 |Byer, RL, Costich, VR |Laser Variable Output Coupler |

|2 |1966 |Bloom, AL; Byer, RL; Bell, WE |Emission-Line Widths of Ion Lasers |

|1 |1965 |Byer, RL; Bell, WE; Hodges, E.; Bloom, AL |Laser Emission in Ionized Mercury |

................
................

In order to avoid copyright disputes, this page is only a partial summary.

Google Online Preview   Download