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Multiwavelength solid state laser using frequency conversion techniques

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • H01S-003/10
출원번호 US-0736931 (1991-07-29)
발명자 / 주소
  • Lin J. T. (Winter Springs FL)
출원인 / 주소
  • JTT International, Inc. (Orlando FL 02)
인용정보 피인용 횟수 : 188  인용 특허 : 0

초록

A process and apparatus are disclosed for producing multiwavelength coherent radiations ranging from deep-ultraviolet to mid-infrared. The basic laser is a pulsed Nd:YAG or Nd:YLF laser which is frequency converted by a set of novel nonlinear crystals including D-CDA, LBO, BBO, KTP, and KNbO3, where

대표청구항

A laser apparatus for producing a fifth harmonic generation beam of predetermined wavelength comprising: a solid state laser; a first nonlinear crystal for producing a second harmonic beam; focusing optics for focusing said solid state laser beam into said first nonlinear crystal; a second nonlinear

이 특허를 인용한 특허 (188)

  1. Chuang, Yung-Ho Alex; Lu, Xiaoxu; Zhang, Baigang; Fielden, John; Dribinski, Vladimir, 183 nm CW laser and inspection system.
  2. Chuang, Yung-Ho Alex; Armstrong, J. Joseph; Deng, Yujun; Dribinski, Vladimir; Fielden, John; Zhang, Jidong, 183NM laser and inspection system.
  3. Chuang, Yung-Ho Alex; Armstrong, J. Joseph; Deng, Yujun; Dribinski, Vladimir; Fielden, John; Zhang, Jidong, 183NM laser and inspection system.
  4. Chuang, Yung-Ho; Armstrong, J. Joseph; Liou, Justin Dianhuan; Dribinski, Vladimir; Fielden, John, 193 nm laser and an inspection system using a 193 nm laser.
  5. Chuang, Yung-Ho; Armstrong, J. Joseph; Dribinski, Vladimir; Deng, Yujun; Fielden, John, 193NM laser and inspection system.
  6. Chuang, Yung-Ho; Armstrong, J. Joseph; Deng, Yujun; Liou, Justin Dianhuan; Dribinski, Vladimir; Fielden, John, 193nm laser and inspection system.
  7. Chuang, Yung-Ho; Armstrong, J. Joseph; Deng, Yujun; Liou, Justin Dianhuan; Dribinski, Vladimir; Fielden, John, 193nm laser and inspection system.
  8. Chuang, Yung-Ho; Armstrong, J. Joseph; Dribinski, Vladimir; Deng, Yujun; Fielden, John, 193nm laser and inspection system.
  9. Sumiya Toshifumi,JPX ; Hagiwara Takashi,JPX, Ablation apparatus.
  10. Eimerl, David; DeBenedictis, Leonard C., Adaptive control of optical pulses for laser medicine.
  11. Lin, J. T., Apparatus and methods for the treatment of presbyopia using fiber-coupled-lasers.
  12. Umezu Nobuhiko,JPX ; Wada Hiroyuki,JPX ; Tatsuki Koichi,JPX, Apparatus for generating ultraviolet laser radiation.
  13. Somani, Seema, Auto-alignment and auto-focus system and method.
  14. Chern, Jehn-Huar; Ehsani, Ali R.; Delgado, Gildardo; Brown, David L.; Chuang, Yung-Ho Alex; Fielden, John, Back-illuminated sensor with boron layer.
  15. Chern, Jehn-Huar; Ehsani, Ali R.; Delgado, Gildardo; Brown, David L.; Chuang, Yung-Ho Alex; Fielden, John, Back-illuminated sensor with boron layer.
  16. Chern, Jehn-Huar; Ehsani, Ali R.; Delgado, Gildardo; Brown, David L.; Chuang, Yung-Ho Alex; Fielden, John, Back-illuminated sensor with boron layer.
  17. Schroder, Russell, Beam position monitoring for laser eye surgery.
  18. Kafka, James D.; Chien, Ching-Yuan; Deng, Yujun; Florean, Andrei C.; Spence, David E.; Zhou, Jianping, Broadly tunable optical parametric oscillator.
  19. Dai, Guangming, Calculating Zernike coefficients from Fourier coefficients.
  20. Dai,Guangming, Calculating Zernike coefficients from Fourier coefficients.
  21. Chernyak, Dimitri A.; Holliday, Keith; Clopp, Mathew, Calibrating laser beam position and shape using an image capture device.
  22. Chernyak, Dimitri A.; Holliday, Keith; Clopp, Mathew, Calibrating laser beam position and shape using an image capture device.
  23. Long William Harrison, Cascade optical parametric oscillator for down-conversion.
  24. Vodopyanov, Konstantin, Cascaded noncritical optical parametric oscillator.
  25. Sasaki Takatomo,JPX ; Hiraki Akio,JPX ; Mori Yusuke,JPX ; Nakai Sadao,JPX, Cesium-lithium-borate crystal and its application to frequency conversion of laser light.
  26. Sasaki,Takatomo; Hiraki,Akio; Mori,Yusuke; Nakai,Sadao, Cesium-lithium-borate crystal and its application to frequency conversion of laser light.
  27. Brinkerhoff, Mak; Kowalski, Tom; Alderson, Shandon, Chair stabilizer for refractive surgery.
  28. Brinkerhoff, Mark; Kowalski, Tom; Alderson, Shandon, Chair stabilizer for refractive surgery.
  29. Slater,Richard C., Chemical identification by flash spectroscopy.
  30. Dribinski, Vladimir L., Coherent light generation below about two-hundred nanometers.
  31. Heyninck-Jantz, Christine; Taitague, Debra; McNatt, Tomas R., Composite heart valve apparatus manufactured using techniques involving laser machining of tissue.
  32. Tang Fuqian ; Han Xiaofeng, Compound astigmatic myopia or hyperopia correction by laser ablation.
  33. Brinkerhoff,Mark; Kowalski,Tom; Alderson,Shandon, Compression head pillows and neck angle adjustment mechanism for refractive laser surgery and the like.
  34. Palanker, Daniel V., Computer guided patterned laser trabeculoplasty.
  35. Grant, Stuart C.; Osio Hernandez-Pons, Alberto; Rinehart, John Michael, Contact lens use in the treatment of an ophthalmologic condition.
  36. Grant, Stuart C.; Osio Hernandez-Pons, Alberto; Rinehart, John Michael, Contact lens use in the treatment of an ophthalmologic condition.
  37. Shi Weiqiang (Los Angeles CA) Grundfest Warren S. (Los Angeles CA), Continuously tunable solid state ultraviolet coherent light source.
  38. Chernyak,Dimitri, Corneal topography-based target warping.
  39. Chernyak, Dimitri, Corneal topography-based target warping system.
  40. Dai, Guangming; Somani, Seema, Correction of presbyopia using adaptive optics, wavefront sensor eye alignment and light shield, and associated methods.
  41. Holliday, Keith; Arnoldussen, Mark E., Customized laser epithelial ablation systems and methods.
  42. Holliday, Keith; Arnoldussen, Mark E., Customized laser epithelial ablation systems and methods.
  43. Fuqian Tang, Device and method for correcting astigmatism by laser ablation.
  44. Yavitz Edward Q., Device and method for simulating ophthalmic surgery.
  45. Lenzner, Matthias; Korn, Georg; Kittelmann, Olaf, Device and procedure for refractive laser surgery.
  46. Ming Lai, Diode-pumped cascade laser for deep UV generation.
  47. Kung Andrew H.,TWX ; Lee Jr-i, Efficient frequency conversion apparatus for use with multimode solid-state lasers.
  48. Apple Howard P. ; Nevitt Martin P. ; Han Xiaofeng, Eye illumination system and method.
  49. Apple Howard P. ; Nevitt Martin P. ; Han Xiaofeng, Eye illumination system and method.
  50. Howard P. Apple ; Martin P. Nevitt ; Xiaofeng Han, Eye illumination system and method.
  51. Dacquay Bruno (Aubiere FRX), Frequency doubled laser having power triggered optimization and regulation.
  52. Mead, Roy D.; Minelly, John D.; Honea, Eric C., Frequency quadrupled laser using thulium-doped fiber amplifier and method.
  53. Alfrey Anthony J. ; Sinofsky Ed, High efficiency high repetition rate, intra-cavity tripled diode pumped solid state laser.
  54. Hackel, Lloyd A.; Norton, Mary; Dane, C. Brent, High energy, high average power solid state green or UV laser.
  55. Mead, Roy D.; Minelly, John D.; Honea, Eric C., High-power laser using thulium-doped fiber amplifier and frequency quadrupling for blue output.
  56. Chuang, Yung-Ho Alex; Zhang, Jingjing; Fielden, John, Image sensor, an inspection system and a method of inspecting an article.
  57. Tabirian, Anna M.; Stanley, Douglas P.; Roberts, David E.; King, Carl S.; Thompson, Arthur B., Infrared laser illuminated imaging systems and methods.
  58. Karita Seiichiro,JPX ; Sugitani Hiroshi,JPX ; Koizumi Yutaka,JPX ; Kashino Toshio,JPX ; Terai Haruhiko,JPX ; Goto Akira,JPX ; Omata Kouichi,JPX ; Tajima Hiroki,JPX ; Kudo Kiyomitsu,JPX ; Ishimatsu Sh, Ink jet head having plural elemental substrates, apparatus having the ink jet head, and method for manufacturing the in.
  59. Shimmick,John K., Integrated scanning and ocular tomography system and method.
  60. Shimmick,John K., Integrated scanning and ocular tomography system and method.
  61. Zhou Fuzheng ; Fu Qiang ; Maikowski Michael, Intra-cavity and inter-cavity harmonics generation in high-power lasers.
  62. Chernyak, Dimitri; Campbell, Charles E.; Gross, Erik; Somani, Seema; Dai, Guangming, Iterative fourier reconstruction for laser surgery and other optical applications.
  63. Chernyak, Dimitri; Campbell, Charles E.; Gross, Erik; Sornani, Seema; Dai, Guangming, Iterative fourier reconstruction for laser surgery and other optical applications.
  64. Chernyak,Dimitri; Campbell,Charles E.; Gross,Erik; Somani,Seema; Dai,Guangming, Iterative fourier reconstruction for laser surgery and other optical applications.
  65. Takada, Yasutoshi, Laser apparatus.
  66. Yamada,Tsuyoshi; Takada,Yasutoshi, Laser apparatus.
  67. Deng, Yujun; Armstrong, J. Joseph; Chuang, Yung-Ho Alex; Dribinski, Vladimir; Fielden, John, Laser assembly and inspection system using monolithic bandwidth narrowing apparatus.
  68. Conemac Donald C., Laser beam mixer.
  69. Lipman, Eliezer; Prior, Yehiam; Gross, Abraham, Laser drill for use in electrical circuit fabrication.
  70. Masuda Hisashi,JPX, Laser light emitting apparatus.
  71. Kikuchi Hiroki,JPX, Laser light emitting device, laser beacon device and laser imager display device.
  72. Kawai, Hitoshi, Laser light source device, exposure device, and mask inspection device using this laser light source device.
  73. Cohn, David B., Laser pulse slicer and dual wavelength converter for chemical sensing.
  74. O'Brien, James N.; Zou, Lian-Cheng; Sun, Yunlong; Fahey, Kevin P.; Wolfe, Michael J.; Baird, Brian W.; Harris, Richard S., Laser segmented cutting.
  75. Dribinski, Vladimir; Chuang, Yung-Ho Alex; Armstrong, J. Joseph; Fielden, John, Laser with high quality, stable output beam, and long life high conversion efficiency non-linear crystal.
  76. Sakuma, Jun; Kusunose, Haruhiko, Light source apparatus.
  77. Hayashi, Kenichi; Yamada, Tsuyoshi, Medical laser apparatus.
  78. Marcuse, Arno G.; Most, Robert A.; North, Edward S., Method and apparatus for cleaning electronic test contacts.
  79. Tang Fuqian ; Hwang Ming-Yi, Method and apparatus for controlling scanning of an ablating laser beam.
  80. Manstein, Dieter; Anderson, Richard, Method and apparatus for dermatological treatment and fractional skin resurfacing.
  81. Yee,Kingman; Clapham,Terrance N., Method and apparatus for determining characteristics of a laser beam spot.
  82. Dodge Timothy J. (Pineville NC) Iradi Thomas E. (Matthews NC) Patel Divya C. (Pineville NC), Method and apparatus for laser beam management.
  83. Dodge Timothy J. (Pineville NC) Iradi Thomas E. (Matthews NC) Patel Divya C. (Pineville NC), Method and apparatus for laser beam management with frequency converting compounds.
  84. Lai,Shui T., Method and apparatus for laser surgery of the cornea.
  85. Lai,Ming; Swinger,Casimir; Yuan,Meijuan, Method and apparatus for obtaining patient-verified prescription of high order aberrations.
  86. Tedesco Daniel E. ; Jorasch James A., Method and apparatus for processing checks to reserve funds.
  87. John Karl Shimmick ; George Caudle ; Kingman Yee ; Stephen J. Koons, Method and system for ablating surfaces with partially overlapping craters having consistent curvature.
  88. Lee, Hyung Man; Park, Soon Seob, Method for manufacturing laser module, and laser module package.
  89. Henry M. D'Souza ; Edwin J. Sarver ; Youssef S. Wakil, Method of corneal analysis using a checkered placido apparatus.
  90. O'Donnell ; Jr. Francis E., Method of improving photorefractive keratectomy by increasing ablation smoothness.
  91. Lai, Ming; Qu, Zhimin; Mohebi, Mehrdad, Method of programmed displacement for prolong usage of optical elements under the irradiation of intensive laser beams.
  92. Lai Shui T., Method of, and apparatus for, surgery of the cornea.
  93. Lin,Jui Teng, Methods and apparatus for presbyopia correction using ultraviolet and infrared lasers.
  94. Lin, J. T., Methods and apparatus for presbyopia treatment using a scanning laser system.
  95. Wong,Jonathan; Chernyak,Dimitri, Methods and systems for differentiating left and right eye images.
  96. Somani, Seema; Yee, Kingman; Shimmick, John K., Methods and systems for laser calibration and eye tracker camera alignment.
  97. Somani, Seema; Yee, Kingman; Shimmick, John S., Methods and systems for laser calibration and eye tracker camera alignment.
  98. Somani,Seema; Yee,Kingman; Shimmick,John K., Methods and systems for laser calibration and eye tracker camera alignment.
  99. Somani,Seema; Yee,Kingman; Shimmick,John K., Methods and systems for laser calibration and eye tracker camera alignment.
  100. Bor, Zsolt, Methods and systems for treating presbyopia.
  101. Dribinski, Vladimir; Chuang, Yung-Ho Alex; Armstrong, J. Joseph, Multi-stage ramp-up annealing for frequency-conversion crystals.
  102. Hayashi,Kenichi; Takada,Yasutoshi, Multi-wavelength laser apparatus with rotatable mirror.
  103. Leong Tony P. (San Jose CA) North Edward S. (Los Altos CA) Herbst Richard L. (Palo Alto CA), Multi-wavelength laser system, probe station and laser cutter system using the same.
  104. Leong Tony P. ; North Edward S. ; Herbst Richard Linsley, Multi-wavelength laser system, probe station and laser cutter system using the same.
  105. Leong Tony P. (San Jose CA) North Edward S. (Los Altos CA) Herbst Richard Linsley (Palo Alto CA), Multi-wavelength variable attenuator and half wave plate.
  106. Leong Tony P. ; North Edward S. ; Herbst Richard Linsley, Multi-wavelength variable attenuator and half wave plate.
  107. Miyake Charles I., Multifunction solid state laser system.
  108. Neuberger, Wolfgang; Berndt, Detlev; Maughan, Julian, Multipurpose diode laser system for ophthalmic laser treatments.
  109. Griffin, Stephen E., Multiwavelength surgical laser.
  110. Pop Mihai,CAX, Multizone, multipass photorefractive keratectomy.
  111. Trofimov,Igor; Lyon,Stephen A., Non-invasive detection of analytes in a complex matrix.
  112. Tuan, Kuang Mon Ashley, Non-invasive measurement of tear volume systems and methods.
  113. Tuan, Kuang-Mon Ashley, Non-invasive measurement of tear volume systems and methods.
  114. Arnoldussen, Mark E.; Wong, Jonathan; Logan, Benjamin A., Operator-controlled scanning laser procedure designed for large-area epithelium removal.
  115. Arnoldussen, Mark E.; Wong, Jonathan; Logan, Benjamin A.; Zickler, Leander, Operator-controlled scanning laser procedure designed for large-area epithelium removal.
  116. Arnoldussen, Mark E.; Wong, Jonathan; Logan, Benjamin A.; Zickler, Leander, Operator-controlled scanning laser procedure designed for large-area epithelium removal.
  117. Arnoldussen, Mark E.; Wong, Jonathan; Logan, Benjamin A.; Zickler, Leander, Operator-controlled scanning laser procedure designed for large-area epithelium removal.
  118. J. T. Lin, Ophthalmic surgery method using non-contact scanning laser.
  119. Lai Shui T., Ophthalmic surgical laser and method.
  120. Komine Hiroshi, Optical parametric oscillator with dynamic output coupler.
  121. Meyer ; Jr. Ronald Kenneth ; Marable Michael L. ; Griffith Gerald P., Optical parametric oscillator with monolithic dual PPLN elements with intrinsic mirrors.
  122. Gross, Erik; Campbell, Charles, Optical surface shape determination by mapping a lenslet array spot pattern to a spatial frequency space.
  123. Gross, Erik; Campbell, Charles, Optical surface shape determination by mapping a lenslet array spot pattern to spatial frequency space.
  124. Holliday, Keith, Output energy control for lasers.
  125. Injeyan Hagop ; St. Pierre Randall J., Ozone compatible stimulated brillouin scattering materials.
  126. Chuang, Yung-Ho Alex; Brown, David L.; Fielden, John, Photomultiplier tube, image sensor, and an inspection system using a PMT or image sensor.
  127. Chuang, Yung-Ho; Brown, David L.; Fielden, John, Photomultiplier tube, image sensor, and an inspection system using a PMT or image sensor.
  128. Keszler Douglas A. (Corvallis OR), Polyborates useful for optical frequency conversion.
  129. Somani, Seema; Yee, Kingman, Presbyopia correction through negative high-order spherical aberration.
  130. Somani,Seema; Yee,Kingman, Presbyopia correction through negative high-order spherical aberration.
  131. Somani, Seema; Yee, Kingman, Presbyopia correction through negative spherical aberration.
  132. Somani, Seema; Yee, Kingman, Presbyopia correction through negative spherical aberration.
  133. Lee, Oug Ki; Lee, Jung Hoon, Probe positioning and bonding device and probe bonding method.
  134. Wallenstein Richard,DEX, Process and apparatus for generating at least three laser beams of different wavelength for the display of color video pictures.
  135. Nebel Achim,DEX, Process and apparatus for generating at least three light bundles of different wavelength, especially for displaying color images.
  136. Meyer ; Jr. Ronald K. ; Vaidyanathan Mohan ; Pekny William ; Griffith Gerald P. ; Mui Peter H., Quadruple grating period PPLN optical parametric oscillator difference frequency generator with common doubly resonant cavity.
  137. Tankovich, Nikolai; Lukashev, Alexie, Rainbow laser.
  138. Lin,Jui Teng, Refractive surgery and presbyopia correction using infrared and ultraviolet lasers.
  139. Lin, Jui-Teng, Refractive surgical laser apparatus and method.
  140. Heitel, Robert G, Scanning lens systems and methods of reducing reaction forces therein.
  141. Chuang, Yung-Ho Alex; Liou, Justin Dianhuan; Armstrong, J. Joseph; Deng, Yujun, Semiconductor inspection and metrology system using laser pulse multiplier.
  142. Chuang, Yung-Ho; Armstrong, J. Joseph; Liou, Justin Dianhuan; Dribinski, Vladimir; Brown, David L., Semiconductor inspection and metrology system using laser pulse multiplier.
  143. Chuang, Yung-Ho; Armstrong, J. Joseph; Liou, Justin Dianhuan; Dribinski, Vladimir; Brown, David L., Semiconductor inspection and metrology system using laser pulse multiplier.
  144. Chuang, Yung-Ho; Armstrong, J. Joseph; Liou, Justin Dianhuan; Dribinski, Vladimir; Brown, David L., Semiconductor inspection and metrology system using laser pulse multiplier.
  145. Chuang, Yung-Ho Alex; Fielden, John; Brown, David L.; Zhang, Jingjing; Lyon, Keith; Wang, Mark Shi, Sensor with electrically controllable aperture for inspection and metrology systems.
  146. Chuang, Yung-Ho Alex; Fielden, John; Brown, David L.; Zhang, Jingjing; Lyon, Keith; Wang, Mark Shi, Sensor with electrically controllable aperture for inspection and metrology systems.
  147. Tang Fuqian, Smooth and uniform laser ablation apparatus and method.
  148. Van Saarloos,Paul, Solid state UV laser.
  149. Armstrong, J. Joseph, Solid state illumination source and inspection system.
  150. Richard Scheps, Solid state modulated ultraviolet laser.
  151. Lai, Ming, Solid-state laser for customized cornea ablation.
  152. Shields Henry, Solid-state laser system for ultra-violet micro-lithography.
  153. Gross, Erik; Campbell, Charles, Spatial frequency wavefront sensor system and method.
  154. Torruellas William E. (Orlando FL) Stegeman George I. (Maitland FL) Torner Lluis (Berga ESX), Spatial solitary waves in bulk quadratic nonlinear materials and their applications.
  155. James J. Jacob, System and method for generating coherent radiation at ultraviolet wavelengths.
  156. Zickler, Leander, System and method for laser ablation calibration.
  157. Andersen, Dan E.; Mordaunt, David H., System and method for minimally traumatic ophthalmic photomedicine.
  158. Deng, Yujun; Chuang, Yung-Ho; Fielden, John, System and method for reducing the bandwidth of a laser and an inspection system and method using a laser.
  159. Holliday, Keith, System and method for stabilizing delivered laser energy.
  160. Mordaunt, David Haydn; Christensen, Steven Scott; Ferro, Allison Albrecht; Dewey, David A., System, method, and apparatus to provide laser beams of two or more wavelengths.
  161. Mordaunt, David Haydn; Christensen, Steven Scott; Ferro, Allison Albrecht; Dewey, David A., System, method, and apparatus to provide laser beams of two or more wavelengths.
  162. Arnoldussen, Mark E., Systems and methods for qualifying and calibrating a beam delivery system.
  163. Lee, Hon M, Systems and methods for removing fixation light reflection from an ophthalmic image.
  164. Dai, Guangming, Systems and methods for wavefront reconstruction for aperture with arbitrary shape.
  165. Wong, Jonathan; Chernyak, Dimitri, Systems for differentiating left and right eye images.
  166. Zhang, Xi-Cheng; Tani, Masahiko; Jiang, Zhiping; Chen, Qin, Terahertz transceivers and methods for emission and detection of terahertz pulses using such transceivers.
  167. Yin Yusong, Third harmonic generation apparatus.
  168. Gao, Yun Feng; Yang, Shao Chen; Zhou, Chao Ming, Third harmonic laser system.
  169. Grossman William M. ; Henrie Jason D., Third-harmonic generator with uncoated brewster-cut dispersive output facet.
  170. Osio Sancho, Alberto, Treatment of ophthalmic conditions.
  171. Osio Sancho, Alberto, Treatment of ophthalmic conditions.
  172. Osio Sancho, Alberto, Treatment of ophthalmic conditions.
  173. Osio Sancho, Alberto, Treatment of ophthalmic conditions.
  174. Sancho, Alberto Osio, Treatment of ophthalmic conditions.
  175. Sancho, Alberto Osio, Treatment of ophthalmic conditions.
  176. Lin,Jui Teng, Treatment of presbyopia and other eye disorders using a scanning laser system.
  177. Wan Chaozhi, Tunable time plate.
  178. Mueller, Frank; Härter, Arne, Tunable, narrow linewidth single transversal mode light source using a quasi-incoherent broadband pump source.
  179. Esterowitz Leon (Springfield VA) Pinto Joseph F. (Laurel MD), Two-micron modelocked laser system.
  180. Gerstenberger,David C.; Bowers,Mark S., Ultraviolet laser system and method having wavelength in the 200-nm range.
  181. Jay S. Walker ; T. Scott Case, User-generated traveler's checks.
  182. Walker,Jay S.; Case,T. Scott, User-generated traveler's checks.
  183. Murray, Steven C.; Davenport, Scott A.; Coleman, Tony D., Variable pulse duration, adjustable wavelength medical laser system.
  184. Wong,Jonathan, Variable repetition rate firing scheme for refractive laser systems.
  185. Chernyak,Dimitri; Campbell,Charles E.; Gross,Erik; Somani,Seema, Wavefront reconstruction using fourier transformation and direct integration.
  186. Masuda Hisashi,JPX ; Kubota Shigeo,JPX, Wavelength converter.
  187. Kouta Hikaru,JPX, Wavelength converter for generating optical harmonics of incident laser light at high efficiency and method for varying wavelength of incident laser light.
  188. Scheps Richard, Wavelength independent optical probe.
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