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公开(公告)号:US06801560B2
公开(公告)日:2004-10-05
申请号:US10056619
申请日:2002-01-23
申请人: David S. Knowles , Daniel J. W. Brown , Richard L. Sandstrom , German E. Rylov , Eckehard D. Onkels , Herve A. Besaucele , David W. Myers , Alexander I. Ershov , William N. Partlo , Igor V. Fomenkov , Richard C. Ujazdowski , Richard M. Ness , Scott T. Smith , William G. Hulburd
发明人: David S. Knowles , Daniel J. W. Brown , Richard L. Sandstrom , German E. Rylov , Eckehard D. Onkels , Herve A. Besaucele , David W. Myers , Alexander I. Ershov , William N. Partlo , Igor V. Fomenkov , Richard C. Ujazdowski , Richard M. Ness , Scott T. Smith , William G. Hulburd
IPC分类号: H01S322
CPC分类号: H01S3/2366 , G01J9/00 , G03F7/70025 , G03F7/70041 , G03F7/70575 , G03F7/70933 , H01S3/0057 , H01S3/0071 , H01S3/02 , H01S3/03 , H01S3/036 , H01S3/038 , H01S3/0385 , H01S3/0387 , H01S3/0404 , H01S3/041 , H01S3/08 , H01S3/08004 , H01S3/08009 , H01S3/08036 , H01S3/0943 , H01S3/097 , H01S3/09702 , H01S3/09705 , H01S3/0971 , H01S3/0975 , H01S3/104 , H01S3/105 , H01S3/1305 , H01S3/134 , H01S3/139 , H01S3/22 , H01S3/2207 , H01S3/223 , H01S3/225 , H01S3/2251 , H01S3/2256 , H01S3/2258 , H01S3/2333
摘要: An injection seeded modular gas discharge laser system capable of producing high quality pulsed laser beams at pulse rates of about 4,000 Hz or greater and at pulse energies of about 5 mJ or greater. Two separate discharge chambers are provided, one of which is a part of a master oscillator producing a very narrow band seed beam which is amplified in the second discharge chamber. The chambers can be controlled separately permitting separate optimization of wavelength parameters in the master oscillator and optimization of pulse energy parameters in the amplifying chamber. A preferred embodiment in a F2 laser system configured as a MOPA and specifically designed for use as a light source for integrated circuit lithography. In the preferred MOPA embodiment, each chamber comprises a single tangential fan providing sufficient gas flow to permit operation at pulse rates of 4000 Hz or greater by clearing debris from the discharge region in less time than the approximately 0.25 milliseconds between pulses. The master oscillator is equipped with a line selection package for selecting the strongest F2 spectral line.
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公开(公告)号:US06625191B2
公开(公告)日:2003-09-23
申请号:US10012002
申请日:2001-11-30
申请人: David S. Knowles , Daniel J. W. Brown , Herve A. Besaucele , David W. Myers , Alexander I. Ershov , William N. Partlo , Richard L. Sandstrom , Palash P. Das , Stuart L. Anderson , Igor V. Fomenkov , Richard C. Ujazdowski , Eckehard D. Onkels , Richard M. Ness , Scott T. Smith , William G. Hulburd , Jeffrey Oicles
发明人: David S. Knowles , Daniel J. W. Brown , Herve A. Besaucele , David W. Myers , Alexander I. Ershov , William N. Partlo , Richard L. Sandstrom , Palash P. Das , Stuart L. Anderson , Igor V. Fomenkov , Richard C. Ujazdowski , Eckehard D. Onkels , Richard M. Ness , Scott T. Smith , William G. Hulburd , Jeffrey Oicles
IPC分类号: H01S322
CPC分类号: G01J1/4257 , G03F7/70025 , G03F7/70041 , G03F7/70333 , G03F7/70483 , G03F7/70575 , G03F7/70933 , H01S3/005 , H01S3/0057 , H01S3/02 , H01S3/03 , H01S3/036 , H01S3/038 , H01S3/0385 , H01S3/0387 , H01S3/0404 , H01S3/041 , H01S3/08004 , H01S3/08009 , H01S3/08036 , H01S3/0943 , H01S3/097 , H01S3/09702 , H01S3/09705 , H01S3/0971 , H01S3/0975 , H01S3/104 , H01S3/105 , H01S3/1055 , H01S3/1305 , H01S3/134 , H01S3/137 , H01S3/139 , H01S3/22 , H01S3/2207 , H01S3/223 , H01S3/225 , H01S3/2251 , H01S3/2256 , H01S3/2258 , H01S3/2333 , H01S3/2366
摘要: An injection seeded modular gas discharge laser system capable of producing high quality pulsed laser beams at pulse rates of about 4,000 Hz or greater and at pulse energies of about 5 mJ or greater. Two separate discharge chambers are provided, one of which is a part of a master oscillator producing a very narrow band seed beam which is amplified in the second discharge chamber. The chambers can be controlled separately permitting separate optimization of wavelength parameters in the master oscillator and optimization of pulse energy parameters in the amplifying chamber. A preferred embodiment in an ArF excimer laser system configured as a MOPA and specifically designed for use as a light source for integrated circuit lithography. In the preferred MOPA embodiment, each chamber comprises a single tangential fan providing sufficient gas flow to permit operation at pulse rates of 4000 Hz or greater by clearing debris from the discharge region in less time than the approximately 0.25 milliseconds between pulses. The master oscillator is equipped with a line narrowing package having a very fast tuning mirror capable of controlling centerline wavelength on a pulse-to-pulse basis at repetition rates of 4000 Hz or greater to a precision of less than 0.2 pm.
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公开(公告)号:US06713770B2
公开(公告)日:2004-03-30
申请号:US10098975
申请日:2002-03-15
申请人: Richard L. Sandstrom , Alexander I. Ershov , William N. Partlo , Igor V. Fomenkov , Scott T. Smith , Daniel J. W. Brown
发明人: Richard L. Sandstrom , Alexander I. Ershov , William N. Partlo , Igor V. Fomenkov , Scott T. Smith , Daniel J. W. Brown
IPC分类号: G01J314
CPC分类号: G01J3/26 , G01J1/4257 , G01J3/02 , G01J3/0205 , G01J3/12 , G01J3/1804 , G01J3/22 , G01J9/02
摘要: A high resolution spectral measurement device. A preferred embodiment presents an extremely narrow slit function in the ultraviolet range and is very useful for measuring bandwidth of narrow-band excimer lasers used for integrated circuit lithography. Light from the laser is focused into a diffuser and the diffused light exiting the diffuser illuminates an etalon. A portion of its light exiting the etalon is collected and directed into a slit positioned at a fringe pattern of the etalon. Light passing through the slit is collimated and the collimated light illuminates a grating positioned in an approximately Littrow configuration which disburses the light according to wavelength. A portion of the dispursed light representing the wavelength corresponding to the selected etalon fringe is passed through a second slit and monitored by a light detector. When the etalon and the grating are tuned to the same precise wavelength a slit function is defined which is extremely narrow such as about 0.034 pm (FWHM) and about 0.091 pm (95 percent integral). The bandwidth of a laser beam can be measured very accurately by a directing portion of the laser beam into the insulator and scanning the laser wavelength over a range which includes the monochromator slit wavelength. In a second embodiment the second slit and the light detector is replaced by a photodiod array and the bandwidth of a laser beam is determined by analyzing a set of scan data from the photodiode array. Alternately, the laser wavelength can be fixed near the middle of the spectrum range of the grating spectrometer, and the etalon can be scanned.
摘要翻译: 高分辨率光谱测量装置。 优选的实施例在紫外线范围内呈现非常窄的狭缝功能,并且对于测量用于集成电路光刻的窄带准分子激光器的带宽是非常有用的。 来自激光的光被聚焦成漫射器,并且离开扩散器的漫射光照射标准具。 将其从标准具出射的光的一部分收集并引导到位于标准具的边缘图案处的狭缝中。 通过狭缝的光线被准直,并且准直光照射位于大约Littrow配置中的光栅,其根据波长散发光。 表示对应于所选择的标准具条纹的波长的调度光的一部分通过第二狭缝并由光检测器监视。 当标准具和光栅调谐到相同的精确波长时,定义狭缝功能,其极窄,例如约0.034μm(FWHM)和约0.091μm(95%积分)。 通过激光束的引导部分进入绝缘体并且在包括单色器狭缝波长的范围内扫描激光波长,可以非常精确地测量激光束的带宽。 在第二实施例中,第二狭缝和光检测器由光电二极管阵列替代,并且通过分析来自光电二极管阵列的一组扫描数据来确定激光束的带宽。 或者,激光波长可以固定在光栅光谱仪的光谱范围附近,可以扫描标准具。
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公开(公告)号:US07058107B2
公开(公告)日:2006-06-06
申请号:US10804281
申请日:2004-03-18
申请人: David S. Knowles , Daniel J. W. Brown , Richard L. Sandstrom , German E. Rylov , Eckehard D. Onkels , Herve A. Besaucele , David W. Myers , Alexander I. Ershov , William N. Partlo , Igor V. Fomenkov , Richard C. Ujazdowski , Richard M. Ness , Scott T. Smith , William G. Hulburd
发明人: David S. Knowles , Daniel J. W. Brown , Richard L. Sandstrom , German E. Rylov , Eckehard D. Onkels , Herve A. Besaucele , David W. Myers , Alexander I. Ershov , William N. Partlo , Igor V. Fomenkov , Richard C. Ujazdowski , Richard M. Ness , Scott T. Smith , William G. Hulburd
IPC分类号: H01S3/22
CPC分类号: H01S3/2366 , G01J9/00 , G03F7/70025 , G03F7/70041 , G03F7/70575 , G03F7/70933 , H01S3/0057 , H01S3/0071 , H01S3/02 , H01S3/03 , H01S3/036 , H01S3/038 , H01S3/0385 , H01S3/0387 , H01S3/0404 , H01S3/041 , H01S3/08 , H01S3/08004 , H01S3/08009 , H01S3/08036 , H01S3/0943 , H01S3/097 , H01S3/09702 , H01S3/09705 , H01S3/0971 , H01S3/0975 , H01S3/104 , H01S3/105 , H01S3/1305 , H01S3/134 , H01S3/139 , H01S3/22 , H01S3/2207 , H01S3/223 , H01S3/225 , H01S3/2251 , H01S3/2256 , H01S3/2258 , H01S3/2333
摘要: An injection seeded modular gas discharge laser system capable of producing high quality pulsed laser beams at pulse rates of about 4,000 Hz or greater and at pulse energies of about 5 mJ or greater. Two separate discharge chambers are provided, one of which is a part of a master oscillator producing a very narrow band seed beam which is amplified in the second discharge chamber. The chambers can be controlled separately permitting separate optimization of wavelength parameters in the master oscillator and optimization of pulse energy parameters in the amplifying chamber. A preferred embodiment in a F2 laser system configured as a MOPA and specifically designed for use as a light source for integrated circuit lithography. In the preferred MOPA embodiment, each chamber comprises a single tangential fan providing sufficient gas flow to permit operation at pulse rates of 4000 Hz or greater by clearing debris from the discharge region in less time than the approximately 0.25 milliseconds between pulses. The master oscillator is equipped with a line selection package for selecting the strongest F2 spectral line.
摘要翻译: 一种注射种子模块化气体放电激光系统,其能够以约4,000Hz或更大的脉冲速率和约5mJ或更大的脉冲能量产生高质量的脉冲激光束。 提供两个单独的放电室,其中之一是主振荡器的一部分,其产生在第二放电室中放大的非常窄的带状晶体束。 可以单独控制室,允许主振荡器中的波长参数的单独优化和放大室中的脉冲能量参数的优化。 配置为MOPA并被专门设计用作集成电路光刻的光源的F 2 N 2激光系统中的优选实施例。 在优选的MOPA实施例中,每个腔室包括单个切向风扇,其通过在比脉冲之间的大约0.25毫秒更短的时间内清除来自放电区域的碎屑来提供足够的气流以允许以4000Hz或更高的脉冲速率操作。 主振荡器配备有用于选择最强的F 2/2谱线的线选择包。
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5.
公开(公告)号:US06985508B2
公开(公告)日:2006-01-10
申请号:US10627215
申请日:2003-07-24
申请人: David S. Knowles , Daniel J. W. Brown , Herve A. Besaucele , David W. Meyers , Alexander I. Ershov , William N. Partlo , Richard L. Sandstrom , Palash P. Das , Stuart L. Anderson , Igor V. Fomenkov , Richard C. Ujazdowski , Eckehard D. Onkels , Richard M. Ness , Scott T. Smith , William G. Hulburd , Jeffrey Oicles
发明人: David S. Knowles , Daniel J. W. Brown , Herve A. Besaucele , David W. Meyers , Alexander I. Ershov , William N. Partlo , Richard L. Sandstrom , Palash P. Das , Stuart L. Anderson , Igor V. Fomenkov , Richard C. Ujazdowski , Eckehard D. Onkels , Richard M. Ness , Scott T. Smith , William G. Hulburd , Jeffrey Oicles
IPC分类号: H01S3/22
CPC分类号: G01J1/4257 , G03F7/70025 , G03F7/70041 , G03F7/70333 , G03F7/70483 , G03F7/70575 , G03F7/70933 , H01S3/005 , H01S3/0057 , H01S3/02 , H01S3/03 , H01S3/036 , H01S3/038 , H01S3/0385 , H01S3/0387 , H01S3/0404 , H01S3/041 , H01S3/08004 , H01S3/08009 , H01S3/08036 , H01S3/0943 , H01S3/097 , H01S3/09702 , H01S3/09705 , H01S3/0971 , H01S3/0975 , H01S3/104 , H01S3/105 , H01S3/1055 , H01S3/1305 , H01S3/134 , H01S3/137 , H01S3/139 , H01S3/22 , H01S3/2207 , H01S3/223 , H01S3/225 , H01S3/2251 , H01S3/2256 , H01S3/2258 , H01S3/2333 , H01S3/2366
摘要: An injection seeded modular gas discharge laser system capable of producing high quality pulsed laser beams at pulse rates of about 4,000 Hz or greater and at pulse energies of about 5 mJ or greater. Two separate discharge chambers are provided, one of which is a part of a master oscillator producing a very narrow band seed beam which is amplified in the second discharge chamber. The chambers can be controlled separately permitting separate optimization of wavelength parameters in the master oscillator and optimization of pulse energy parameters in the amplifying chamber. A preferred embodiment in an ArF excimer laser system configured as a MOPA and specifically designed for use as a light source for integrated circuit lithography. In the preferred MOPA embodiment, each chamber comprises a single tangential fan providing sufficient gas flow to permit operation at pulse rates of 4000 Hz or greater by clearing debris from the discharge region in less time than the approximately 0.25 milliseconds between pulses. The master oscillator is equipped with a line narrowing package having a very fast tuning mirror capable of controlling centerline wavelength on a pulse-to-pulse basis at repetition rates of 4000 Hz or greater to a precision of less than 0.2 pm.
摘要翻译: 一种注射种子模块化气体放电激光系统,其能够以约4,000Hz或更大的脉冲速率和约5mJ或更大的脉冲能量产生高质量的脉冲激光束。 提供两个单独的放电室,其中之一是主振荡器的一部分,其产生在第二放电室中放大的非常窄的带状晶体束。 可以单独控制室,允许主振荡器中的波长参数的单独优化和放大室中的脉冲能量参数的优化。 配置为MOPA并被专门用于集成电路光刻的光源的ArF准分子激光系统中的优选实施例。 在优选的MOPA实施例中,每个腔室包括单个切向风扇,其通过在比脉冲之间的大约0.25毫秒更短的时间内清除来自放电区域的碎屑来提供足够的气流以允许以4000Hz或更高的脉冲速率操作。 主振荡器配备有具有非常快的调谐镜的线窄化封装,能够以4000Hz或更高的重复频率在脉冲到脉冲的基础上控制中心线波长,精度小于0.2μm。
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公开(公告)号:US20110102759A1
公开(公告)日:2011-05-05
申请号:US12987039
申请日:2011-01-07
申请人: Alexander I. Ershov , William N. Partlo , Daniel J. W. Brown , Igor V. Fomenkov , Robert A. Bergstedt , Richard L. Sandstrom , Ivan Lalovic
发明人: Alexander I. Ershov , William N. Partlo , Daniel J. W. Brown , Igor V. Fomenkov , Robert A. Bergstedt , Richard L. Sandstrom , Ivan Lalovic
IPC分类号: G03B27/54
CPC分类号: H01S3/225 , H01S3/005 , H01S3/0057 , H01S3/08004 , H01S3/08009 , H01S3/083 , H01S3/10092 , H01S3/2251 , H01S3/2258 , H01S3/2333 , H01S3/2383 , H01S2301/02
摘要: A method and apparatus may comprise a line narrowed pulsed excimer or molecular fluorine gas discharge laser system which may comprise a seed laser oscillator producing an output comprising a laser output light beam of pulses which may comprise a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage containing an amplifying gain medium in a second gas discharge excimer or molecular fluorine laser chamber receiving the output of the seed laser oscillator and amplifying the output of the seed laser oscillator to form a laser system output comprising a laser output light beam of pulses, which may comprise a ring power amplification stage.
摘要翻译: 一种方法和装置可以包括线变窄的脉冲准分子或分子氟气放电激光系统,其可以包括种子激光振荡器,其产生包括可以包括第一气体放电准分子或分子氟激光室的脉冲的激光输出光束的输出; 第一振荡器腔内的线窄模块; 在第二气体放电准分子或分子氟激光室中包含放大增益介质的激光放大级,其接收种子激光振荡器的输出并放大种子激光振荡器的输出,以形成激光系统输出,其包括激光输出光束 脉冲,其可以包括环形功率放大级。
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公开(公告)号:US07643528B2
公开(公告)日:2010-01-05
申请号:US11973671
申请日:2007-10-10
申请人: William N. Partlo , Alexander I. Ershov , German Rylov , Igor V. Fomenkov , Daniel J. W. Brown , Christian J. Wittak , Rajasekhar M. Rao , Robert A. Bergstedt , John Fitzgerald , Richard L. Sandstrom , Vladimir B. Fleurov , Robert N. Jacques , Ed Danielewicz , Robin Swain , Edward Arriola , Michael Wyatt , Walter Crosby
发明人: William N. Partlo , Alexander I. Ershov , German Rylov , Igor V. Fomenkov , Daniel J. W. Brown , Christian J. Wittak , Rajasekhar M. Rao , Robert A. Bergstedt , John Fitzgerald , Richard L. Sandstrom , Vladimir B. Fleurov , Robert N. Jacques , Ed Danielewicz , Robin Swain , Edward Arriola , Michael Wyatt , Walter Crosby
IPC分类号: H01S3/22
CPC分类号: H01S3/0057 , G03F7/70341 , G03F7/70583
摘要: An apparatus and method which may comprise a pulsed gas discharge laser which may comprise a seed laser portion; an amplifier portion receiving the seed laser output and amplifying the optical intensity of each seed pulse; a pulse stretcher which may comprise: a first beam splitter operatively connected with the first delay path and a second pulse stretcher operatively connected with the second delay path; a first optical delay path tower containing the first beam splitter; a second optical delay path tower containing the second beam splitter; one of the first and second optical delay paths may comprise: a plurality of mirrors defining the respective optical delay path including mirrors located in the first tower and in the second tower; the other of the first and second optical delay paths may comprise: a plurality of mirrors defining the respective optical delay path including mirrors only in one of the first tower and the second tower.
摘要翻译: 一种可包括可包括种子激光器部分的脉冲气体放电激光器的装置和方法; 接收种子激光输出并放大每个种子脉冲的光强度的放大器部分; 脉冲展开器,其可以包括:与第一延迟路径可操作地连接的第一分束器和与第二延迟路径可操作地连接的第二脉冲展开器; 包含第一分束器的第一光学延迟路径塔; 包含第二分束器的第二光学延迟路径塔; 第一和第二光学延迟路径中的一个可以包括:多个反射镜,其限定相应的光学延迟路径,包括位于第一塔架和第二塔架中的反射镜; 第一和第二光学延迟路径中的另一个可以包括:多个反射镜限定相应的光学延迟路径,其仅包括在第一塔架和第二塔架之一中的镜子。
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公开(公告)号:US06538737B2
公开(公告)日:2003-03-25
申请号:US10003513
申请日:2001-10-31
申请人: Richard L. Sandstrom , Alexander I. Ershov , William N. Partlo , Igor V. Fomenkov , Daniel J. W. Brown
发明人: Richard L. Sandstrom , Alexander I. Ershov , William N. Partlo , Igor V. Fomenkov , Daniel J. W. Brown
IPC分类号: G01J314
CPC分类号: G01J3/12 , G01J1/4257 , G01J3/22 , G01J3/26 , G01J9/02
摘要: A high resolution etalon-grating spectrometer. A preferred embodiment presents an extremely narrow slit function in the ultraviolet range and is very useful for measuring bandwidth of narrow band excimer lasers used for integrated circuit lithography. Light from the laser is focused into a diffuser and the diffused light exiting the diffuser illuminates an etalon. A portion of its light exiting the etalon is collected and directed into a slit positioned at a fringe pattern of the etalon. Light passing through the slit is collimated and the collimated light illuminates a grating positioned in an approximately Littrow configuration which disburses the light according to wavelength. A portion of the dispursed light representing the wavelength corresponding to the selected etalon fringe is passed through a second slit and monitored by a light detector. When the etalon and the grating are tuned to the same precise wavelength a slit function is defined which is extremely narrow such as about 0.034 pm (FWHM) and about 0.091 pm (95 percent integral). The etalon and the grating are placed in a leak-fight enclosure filled with a gas, such as nitrogen or helium. The wavelength scanning of the spectrometer is done by changing the gas pressure in the enclosure during the scan.
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公开(公告)号:US08170078B2
公开(公告)日:2012-05-01
申请号:US12987039
申请日:2011-01-07
申请人: Alexander I. Ershov , William N. Partlo , Daniel J. W. Brown , Igor V. Fomenkov , Robert A. Bergstedt , Richard L. Sandstrom , Ivan Lalovic
发明人: Alexander I. Ershov , William N. Partlo , Daniel J. W. Brown , Igor V. Fomenkov , Robert A. Bergstedt , Richard L. Sandstrom , Ivan Lalovic
IPC分类号: H01S3/22
CPC分类号: H01S3/225 , H01S3/005 , H01S3/0057 , H01S3/08004 , H01S3/08009 , H01S3/083 , H01S3/10092 , H01S3/2251 , H01S3/2258 , H01S3/2333 , H01S3/2383 , H01S2301/02
摘要: A method and apparatus may comprise a line narrowed pulsed excimer or molecular fluorine gas discharge laser system which may comprise a seed laser oscillator producing an output comprising a laser output light beam of pulses which may comprise a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage containing an amplifying gain medium in a second gas discharge excimer or molecular fluorine laser chamber receiving the output of the seed laser oscillator and amplifying the output of the seed laser oscillator to form a laser system output comprising a laser output light beam of pulses, which may comprise a ring power amplification stage.
摘要翻译: 一种方法和装置可以包括线变窄的脉冲准分子或分子氟气放电激光系统,其可以包括种子激光振荡器,其产生包括可以包括第一气体放电准分子或分子氟激光室的脉冲的激光输出光束的输出; 第一振荡器腔内的线窄模块; 在第二气体放电准分子或分子氟激光室中包含放大增益介质的激光放大级,其接收种子激光振荡器的输出并放大种子激光振荡器的输出,以形成激光系统输出,其包括激光输出光束 脉冲,其可以包括环形功率放大级。
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公开(公告)号:US20100108913A1
公开(公告)日:2010-05-06
申请号:US11787180
申请日:2007-04-13
申请人: Alexander I. Ershov , William N. Partlo , Daniel J. W. Brown , Igor V. Fomenkov , Robert A. Bergstedt , Richard L. Sandstrom , Ivan Lalovic
发明人: Alexander I. Ershov , William N. Partlo , Daniel J. W. Brown , Igor V. Fomenkov , Robert A. Bergstedt , Richard L. Sandstrom , Ivan Lalovic
CPC分类号: H01S3/225 , H01S3/005 , H01S3/0057 , H01S3/08004 , H01S3/08009 , H01S3/083 , H01S3/10092 , H01S3/2251 , H01S3/2258 , H01S3/2333 , H01S3/2383 , H01S2301/02
摘要: A method and apparatus may comprise a line narrowed pulsed excimer or molecular fluorine gas discharge laser system which may comprise a seed laser oscillator producing an output comprising a laser output light beam of pulses which may comprise a first gas discharge excimer or molecular fluorine laser chamber; a line narrowing module within a first oscillator cavity; a laser amplification stage containing an amplifying gain medium in a second gas discharge excimer or molecular fluorine laser chamber receiving the output of the seed laser oscillator and amplifying the output of the seed laser oscillator to form a laser system output comprising a laser output light beam of pulses, which may comprise a ring power amplification stage.
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