公开(公告)号：US07382815B2

公开(公告)日：2008-06-03

申请号：US10915517

申请日：2004-08-09

申请人： Ronald L. Spangler ,  Jacob P. Lipcon ,  John A. Rule ,  Robert N. Jacques ,  Armen Kroyan ,  Ivan Lalovic ,  Igor V. Fomenkov ,  John M. Algots

发明人： Ronald L. Spangler ,  Jacob P. Lipcon ,  John A. Rule ,  Robert N. Jacques ,  Armen Kroyan ,  Ivan Lalovic ,  Igor V. Fomenkov ,  John M. Algots

IPC分类号： H01S5/00

CPC分类号： G03F7/70575 ,  G03F7/70025 ,  G03F7/70041 ,  G03F7/70333 ,  G03F7/70933 ,  H01S3/036 ,  H01S3/038 ,  H01S3/0385 ,  H01S3/0404 ,  H01S3/041 ,  H01S3/08009 ,  H01S3/08036 ,  H01S3/0812 ,  H01S3/097 ,  H01S3/0971 ,  H01S3/0975 ,  H01S3/1024 ,  H01S3/104 ,  H01S3/105 ,  H01S3/1055 ,  H01S3/13 ,  H01S3/1305 ,  H01S3/134 ,  H01S3/139 ,  H01S3/22 ,  H01S3/2207 ,  H01S3/223 ,  H01S3/225 ,  H01S3/2251 ,  H01S3/2256 ,  H01S3/2258

摘要： An integrated circuit lithography technique called spectral engineering by Applicants, for bandwidth control of an electric discharge laser. In a preferred process, a computer model is used to model lithographic parameters to determine a desired laser spectrum needed to produce a desired lithographic result. A fast responding tuning mechanism is then used to adjust center wavelength of laser pulses in a burst of pulses to achieve an integrated spectrum for the burst of pulses approximating the desired laser spectrum. The laser beam bandwidth is controlled to produce an effective beam spectrum having at least two spectral peaks in order to produce improved pattern resolution in photo resist film. Line narrowing equipment is provided having at least one piezoelectric drive and a fast bandwidth detection control system having a time response of less than about 2.0 millisecond. In a preferred embodiment, a wavelength tuning mirror is dithered at dither rates of more than 500 dithers per second in phase with the repetition rate of the laser. In one case, the piezoelectric drive was driven with a square wave signal and in a second case it was driven with a sine wave signal. In another embodiment, the maximum displacement was matched on a one-to-one basis with the laser pulses in order to produce a desired average spectrum with two peaks for a series of laser pulses. Other preferred embodiments utilize three separate wavelength tuning positions producing a spectrum with three separate peaks.

摘要翻译： 一种称为光电工程的集成电路光刻技术，用于放电激光器的带宽控制。 在优选的方法中，使用计算机模型来模拟光刻参数以确定产生所需光刻结果所需的所需激光光谱。 然后使用快速响应的调谐机构来调整脉冲串中的激光脉冲的中心波长，以实现接近所需激光光谱的脉冲串的集成光谱。 控制激光束带宽以产生具有至少两个光谱峰值的有效光束光谱，以便在光致抗蚀剂膜中产生改进的图案分辨率。 提供了具有至少一个压电驱动器和具有小于约2.0毫秒的时间响应的快速带宽检测控制系统的线窄设备。 在优选实施例中，波长调谐镜以与激光器的重复频率相位的每秒超过500次抖动的抖动速率抖动。 在一种情况下，用方波信号驱动压电驱动，在第二种情况下，它是用正弦波信号驱动的。 在另一个实施例中，最大位移与激光脉冲在一对一的基础上匹配，以便为一系列激光脉冲产生具有两个峰值的所需平均光谱。 其它优选实施例利用三个独立的波长调谐位置，产生具有三个独立峰值的光谱。

公开(公告)号：US07298770B2

公开(公告)日：2007-11-20

申请号：US10912933

申请日：2004-08-05

申请人： Ronald L. Spangler ,  Jacob P. Lipcon ,  John A. Rule ,  Robert N. Jacques ,  Armen Kroyan ,  Ivan Lalovic ,  Igor V. Fomenkov ,  John M. Algots

发明人： Ronald L. Spangler ,  Jacob P. Lipcon ,  John A. Rule ,  Robert N. Jacques ,  Armen Kroyan ,  Ivan Lalovic ,  Igor V. Fomenkov ,  John M. Algots

IPC分类号： H01S3/22 ,  H01S3/223 ,  H01S3/10 ,  H01S3/13

CPC分类号： G03F7/70575 ,  G03F7/70025 ,  G03F7/70041 ,  G03F7/70333 ,  G03F7/70933 ,  H01S3/036 ,  H01S3/038 ,  H01S3/0385 ,  H01S3/0404 ,  H01S3/041 ,  H01S3/08009 ,  H01S3/08036 ,  H01S3/0812 ,  H01S3/097 ,  H01S3/0971 ,  H01S3/0975 ,  H01S3/1024 ,  H01S3/104 ,  H01S3/105 ,  H01S3/1055 ,  H01S3/13 ,  H01S3/1305 ,  H01S3/134 ,  H01S3/139 ,  H01S3/22 ,  H01S3/2207 ,  H01S3/223 ,  H01S3/225 ,  H01S3/2251 ,  H01S3/2256 ,  H01S3/2258

摘要： An integrated circuit lithography technique called spectral engineering by Applicants, for bandwidth control of an electric discharge laser. In a preferred process, a computer model is used to model lithographic parameters to determine a desired laser spectrum needed to produce a desired lithographic result. A fast responding tuning mechanism is then used to adjust center wavelength of laser pulses in a burst of pulses to achieve an integrated spectrum for the burst of pulses approximating the desired laser spectrum. The laser beam bandwidth is controlled to produce an effective beam spectrum having at least two spectral peaks in order to produce improved pattern resolution in photo resist film. Line narrowing equipment is provided having at least one piezoelectric drive and a fast bandwidth detection control system having a time response of less than about 2.0 millisecond. In a preferred embodiment, a wavelength tuning mirror is dithered at dither rates of more than 500 dithers per second in phase with the repetition rate of the laser. In one case, the piezoelectric drive was driven with a square wave signal and in a second case it was driven with a sine wave signal. In another embodiment, the maximum displacement was matched on a one-to-one basis with the laser pulses in order to produce a desired average spectrum with two peaks for a series of laser pulses. Other preferred embodiments utilize three separate wavelength tuning positions producing a spectrum with three separate peaks.

摘要翻译： 一种称为光电工程的集成电路光刻技术，用于放电激光器的带宽控制。 在优选的方法中，使用计算机模型来模拟光刻参数以确定产生所需光刻结果所需的所需激光光谱。 然后使用快速响应的调谐机构来调整脉冲串中的激光脉冲的中心波长，以实现接近所需激光光谱的脉冲串的集成光谱。 控制激光束带宽以产生具有至少两个光谱峰值的有效光束光谱，以便在光致抗蚀剂膜中产生改进的图案分辨率。 提供了具有至少一个压电驱动器和具有小于约2.0毫秒的时间响应的快速带宽检测控制系统的线窄设备。 在优选实施例中，波长调谐镜以与激光器的重复频率相位的每秒超过500次抖动的抖动速率抖动。 在一种情况下，用方波信号驱动压电驱动，在第二种情况下，它是用正弦波信号驱动的。 在另一个实施例中，最大位移与激光脉冲在一对一的基础上匹配，以便为一系列激光脉冲产生具有两个峰值的所需平均光谱。 其它优选实施例利用三个独立的波长调谐位置，产生具有三个独立峰值的光谱。

公开(公告)号：US06853653B2

公开(公告)日：2005-02-08

申请号：US10036925

申请日：2001-12-21

申请人： Ronald L. Spangler ,  Jacob P. Lipcon ,  John A. Rule ,  Robert N. Jacques ,  Armen Kroyan ,  Ivan Lalovic ,  Igor V. Fomenkov ,  John M. Algots

发明人： Ronald L. Spangler ,  Jacob P. Lipcon ,  John A. Rule ,  Robert N. Jacques ,  Armen Kroyan ,  Ivan Lalovic ,  Igor V. Fomenkov ,  John M. Algots

IPC分类号： B41C20060101 ,  B41C1/00 ,  G03F7/20 ,  H01L21/027 ,  H01S3/036 ,  H01S3/038 ,  H01S3/04 ,  H01S3/041 ,  H01S3/08 ,  H01S3/081 ,  H01S3/097 ,  H01S3/0971 ,  H01S3/0975 ,  H01S3/10 ,  H01S3/102 ,  H01S3/104 ,  H01S3/105 ,  H01S3/1055 ,  H01S3/11 ,  H01S3/13 ,  H01S3/134 ,  H01S3/137 ,  H01S3/139 ,  H01S3/22 ,  H01S3/223 ,  H01S3/225 ,  H01J3/10

CPC分类号： G03F7/70575 ,  G03F7/70025 ,  G03F7/70041 ,  G03F7/70333 ,  G03F7/70933 ,  H01S3/036 ,  H01S3/038 ,  H01S3/0385 ,  H01S3/0404 ,  H01S3/041 ,  H01S3/08009 ,  H01S3/08036 ,  H01S3/0812 ,  H01S3/097 ,  H01S3/0971 ,  H01S3/0975 ,  H01S3/1024 ,  H01S3/104 ,  H01S3/105 ,  H01S3/1055 ,  H01S3/13 ,  H01S3/1305 ,  H01S3/134 ,  H01S3/139 ,  H01S3/22 ,  H01S3/2207 ,  H01S3/223 ,  H01S3/225 ,  H01S3/2251 ,  H01S3/2256 ,  H01S3/2258

摘要： An integrated circuit lithography technique called spectral engineering by Applicants, for bandwidth control of an electric discharge laser. In a preferred process, a computer model is used to model lithographic parameters to determine a desired laser spectrum needed to produce a desired lithographic result. A fast responding tuning mechanism is then used to adjust center wavelength of laser pulses in a burst of pulses to achieve an integrated spectrum for the burst of pulses approximating the desired laser spectrum. The laser beam bandwidth is controlled to produce an effective beam spectrum having at least two spectral peaks in order to produce improved pattern resolution in photo resist film. Line narrowing equipment is provided having at least one piezoelectric drive and a fast bandwidth detection control system having a time response of less than about 2.0 millisecond. In a preferred embodiment, a wavelength tuning mirror is dithered at dither rates of more than 500 dithers per second in phase with the repetition rate of the laser. In one case, the piezoelectric drive was driven with a square wave signal and in a second case it was driven with a sine wave signal. In another embodiment, the maximum displacement was matched on a one-to-one basis with the laser pulses in order to produce a desired average spectrum with two peaks for a series of laser pulses. Other preferred embodiments utilize three separate wavelength tuning positions producing a spectrum with three separate peaks.

公开(公告)号：US06650666B2

公开(公告)日：2003-11-18

申请号：US10027210

申请日：2001-12-21

申请人： Ronald L. Spangler ,  Robert N. Jacques ,  John A. Rule ,  Frederick A. Palenschat ,  Igor V. Fomenkov ,  John M. Algots ,  Jacob P. Lipcon ,  Richard L. Sandstrom

发明人： Ronald L. Spangler ,  Robert N. Jacques ,  John A. Rule ,  Frederick A. Palenschat ,  Igor V. Fomenkov ,  John M. Algots ,  Jacob P. Lipcon ,  Richard L. Sandstrom

IPC分类号： H01S310

CPC分类号： G03F7/70575 ,  G03F7/70025 ,  G03F7/70041 ,  G03F7/70333 ,  G03F7/70933 ,  H01S3/02 ,  H01S3/036 ,  H01S3/038 ,  H01S3/0385 ,  H01S3/0404 ,  H01S3/041 ,  H01S3/08036 ,  H01S3/097 ,  H01S3/0971 ,  H01S3/0975 ,  H01S3/104 ,  H01S3/105 ,  H01S3/1055 ,  H01S3/1305 ,  H01S3/1312 ,  H01S3/134 ,  H01S3/137 ,  H01S3/22 ,  H01S3/2207 ,  H01S3/225

摘要： An electric discharge laser with fast wavelength correction. Fast wavelength correction equipment includes at least one piezoelectric drive and a fast wavelength measurement system and fast feedback response times. In a preferred embodiment, equipment is provided to control wavelength on a slow time frame of several milliseconds, on a intermediate time from of about one to five milliseconds and on a very fast time frame of a few microseconds. Preferred techniques include a combination of a relatively slow stepper motor and a very fast piezoelectric driver for tuning the laser wavelength using a tuning mirror. A preferred control technique is described (utilizing a very fast wavelength monitor) to provide the slow and intermediate wavelength control with the combination of a stepper motor and a piezoelectric driver. Very fast wavelength control is provided with a piezoelectric load cell in combination with the piezoelectric driver. Preferred embodiments provide (1) fast feedback control based on wavelength measurements, (2) fast vibration control, (3) active damping using the load cell and an active damping module, (4) transient inversion using feed forward algorithms based on historical burst data. A preferred embodiment adapts the feed forward algorithms to current conditions. Another preferred embodiment measures tuning mirror position to permit wavelength pretuning and active wavelength tuning.

公开(公告)号：US06532247B2

公开(公告)日：2003-03-11

申请号：US09794782

申请日：2001-02-27

申请人： Ronald L. Spangler ,  Robert N. Jacques ,  George J. Everage ,  Stuart L. Anderson ,  Frederick A. Palenschat ,  Igor V. Fomenkov ,  Richard L. Sandstrom ,  William N. Partlo ,  John M. Algots ,  Daniel J. W. Brown

发明人： Ronald L. Spangler ,  Robert N. Jacques ,  George J. Everage ,  Stuart L. Anderson ,  Frederick A. Palenschat ,  Igor V. Fomenkov ,  Richard L. Sandstrom ,  William N. Partlo ,  John M. Algots ,  Daniel J. W. Brown

IPC分类号： H01S322

CPC分类号： G03F7/70025 ,  G03F7/70041 ,  G03F7/70333 ,  G03F7/70575 ,  G03F7/70933 ,  H01S3/02 ,  H01S3/036 ,  H01S3/038 ,  H01S3/0385 ,  H01S3/0404 ,  H01S3/041 ,  H01S3/08036 ,  H01S3/097 ,  H01S3/0971 ,  H01S3/0975 ,  H01S3/104 ,  H01S3/105 ,  H01S3/1055 ,  H01S3/1305 ,  H01S3/1312 ,  H01S3/134 ,  H01S3/137 ,  H01S3/22 ,  H01S3/2207 ,  H01S3/225

摘要： An electric discharge laser with fast wavelength correction. Fast wavelength correction equipment includes at least one piezoelectric drive and a fast wavelength measurement system and fast feedback response times. In a preferred embodiment, equipment is provided to control wavelength on a slow time frame of several milliseconds, on a intermediate time from of about one to three millisecond and on a very fast time frame of a few microseconds. Techniques include a combination of a relatively slow stepper motor and a very fast piezoelectric driver for tuning the laser wavelength using a tuning mirror. A preferred control technique is described (utilizing a very fast wavelength monitor) to provide the slow and intermediate wavelength control and a piezoelectric load cell in combination with the piezoelectric driver to provide the very fast (few microseconds) wavelength control.

公开(公告)号：US06757316B2

公开(公告)日：2004-06-29

申请号：US09854097

申请日：2001-05-11

申请人： Peter C. Newman ,  Thomas P. Duffey ,  William N. Partlo ,  Richard L. Sandstrom ,  Paul C. Melcher ,  David M. Johns ,  Robert B. Saethre ,  Vladimir B. Fleurov ,  Richard M. Ness ,  Curtis L. Rettig ,  Robert A. Shannon ,  Richard C. Ujazdowski ,  Shahryar Rokni ,  Xiaojiang J. Pan ,  Vladimir Kulgeyko ,  Scott T. Smith ,  Stuart L. Anderson ,  John M. Algots ,  Ronald L. Spangler ,  Igor V. Fomenkov

发明人： Peter C. Newman ,  Thomas P. Duffey ,  William N. Partlo ,  Richard L. Sandstrom ,  Paul C. Melcher ,  David M. Johns ,  Robert B. Saethre ,  Vladimir B. Fleurov ,  Richard M. Ness ,  Curtis L. Rettig ,  Robert A. Shannon ,  Richard C. Ujazdowski ,  Shahryar Rokni ,  Xiaojiang J. Pan ,  Vladimir Kulgeyko ,  Scott T. Smith ,  Stuart L. Anderson ,  John M. Algots ,  Ronald L. Spangler ,  Igor V. Fomenkov

IPC分类号： H01S322

CPC分类号： H01S3/225 ,  G01J1/4257 ,  G01J3/027 ,  G01J9/0246 ,  G03F7/70025 ,  G03F7/70041 ,  G03F7/70333 ,  G03F7/70483 ,  G03F7/70575 ,  G03F7/70933 ,  H01S3/02 ,  H01S3/036 ,  H01S3/038 ,  H01S3/0385 ,  H01S3/0387 ,  H01S3/0404 ,  H01S3/041 ,  H01S3/08009 ,  H01S3/08036 ,  H01S3/097 ,  H01S3/09702 ,  H01S3/0971 ,  H01S3/0975 ,  H01S3/1024 ,  H01S3/104 ,  H01S3/105 ,  H01S3/1055 ,  H01S3/1305 ,  H01S3/134 ,  H01S3/137 ,  H01S3/139 ,  H01S3/22 ,  H01S3/2207 ,  H01S3/223 ,  H01S3/2251 ,  H01S3/2256 ,  H01S3/2258 ,  H01S3/2308

摘要： The present invention provides an excimer laser capable of producing a high quality pulsed laser beam at pulse rates of about 4,000 Hz at pulse energies of about 5 mJ or greater. A preferred embodiment is an ArF excimer laser specifically designed as a light source for integrated circuit lithography. An improved wavemeter with special software monitors output beam parameters and controls a very fast PZT driven tuning mirror and the pulse power charging voltage to maintain wavelength and pulse energy within desired limits. In a preferred embodiment two fan motors drive a single tangential fan which provides sufficient gas flow to clear discharge debris from the discharge region during the approximately 0.25 milliseconds between pulses.

摘要翻译： 本发明提供了一种准分子激光器，其能够以约5mJ或更大的脉冲能量产生脉冲速率约为4000Hz的高质量脉冲激光束。 优选的实施方案是专门设计为用于集成电路光刻的光源的ArF准分子激光器。 具有特殊软件的改进型波长测量仪监测输出光束参数，并控制非常快的PZT驱动调光镜和脉冲功率充电电压，以将波长和脉冲能量保持在所需的极限内。 在优选实施例中，两个风扇马达驱动单个切向风扇，其提供足够的气流以在脉冲之间的大约0.25毫秒期间从放电区域清除放电碎片。

公开(公告)号：US06882674B2

公开(公告)日：2005-04-19

申请号：US10036676

申请日：2001-12-21

申请人： Christian J. Wittak ,  William N. Partlo ,  Richard L. Sandstrom ,  Paul C. Melcher ,  David M. Johns ,  Robert B. Saethre ,  Richard M. Ness ,  Curtis L. Rettig ,  Robert A. Shannon ,  Richard C. Ujazdowski ,  Shahryar Rokni ,  Scott T. Smith ,  Stuart L. Anderson ,  John M. Algots ,  Ronald L. Spangler ,  Igor V. Fomenkov ,  Thomas D. Steiger ,  Jerome A. Emilo ,  Clay C. Titus ,  Alex P. Ivaschenko ,  Paolo Zambon ,  Gamaralalage G. Padmabandu ,  Mark S. Branham ,  Sunjay Phatak ,  Raymond F. Cybulski

发明人： Christian J. Wittak ,  William N. Partlo ,  Richard L. Sandstrom ,  Paul C. Melcher ,  David M. Johns ,  Robert B. Saethre ,  Richard M. Ness ,  Curtis L. Rettig ,  Robert A. Shannon ,  Richard C. Ujazdowski ,  Shahryar Rokni ,  Scott T. Smith ,  Stuart L. Anderson ,  John M. Algots ,  Ronald L. Spangler ,  Igor V. Fomenkov ,  Thomas D. Steiger ,  Jerome A. Emilo ,  Clay C. Titus ,  Alex P. Ivaschenko ,  Paolo Zambon ,  Gamaralalage G. Padmabandu ,  Mark S. Branham ,  Sunjay Phatak ,  Raymond F. Cybulski

IPC分类号： H01S3/097 ,  G03F7/20 ,  H01S3/00 ,  H01S3/036 ,  H01S3/038 ,  H01S3/041 ,  H01S3/0975 ,  H01S3/134 ,  H01S3/139 ,  H01S3/225 ,  H01S3/23 ,  H01S3/22

CPC分类号： G03F7/70025 ,  G03F7/70933 ,  H01S3/0057 ,  H01S3/036 ,  H01S3/0385 ,  H01S3/041 ,  H01S3/0975 ,  H01S3/134 ,  H01S3/139 ,  H01S3/225 ,  H01S3/2251 ,  H01S3/2256 ,  H01S3/2258 ,  H01S3/2366

摘要： The present invention provides an excimer laser capable of producing a high quality pulsed laser beam at pulse rates of about 4,000 Hz at pulse energies of about 5 mJ or greater. A preferred embodiment is an ArF excimer laser specifically designed as a light source for integrated circuit lithography. An improved wavemeter with special software monitors output beam parameters and controls a very fast PZT driven tuning mirror and the pulse power charging voltage to maintain wavelength and pulse energy within desired limits. In a preferred embodiment two fan motors drive a single tangential fan which provides sufficient gas flow to clear discharge debris from the discharge region during the approximately 0.25 milliseconds between pulses.

摘要翻译： 本发明提供了一种准分子激光器，其能够以约5mJ或更大的脉冲能量产生脉冲速率约为4000Hz的高质量脉冲激光束。 优选的实施方案是专门设计为用于集成电路光刻的光源的ArF准分子激光器。 具有特殊软件的改进型波长测量仪监测输出光束参数，并控制非常快的PZT驱动调光镜和脉冲功率充电电压，以将波长和脉冲能量保持在所需的极限内。 在优选实施例中，两个风扇马达驱动单个切向风扇，其提供足够的气流以在脉冲之间的大约0.25毫秒期间从放电区域清除放电碎片。

公开(公告)号：US06704339B2

公开(公告)日：2004-03-09

申请号：US10233253

申请日：2002-08-30

申请人： Leonard Lublin ,  David J. Warkentin ,  Palash P. Das ,  Brian C. Klene ,  R. Kyle Webb ,  Herve A. Besaucele ,  Ronald L. Spangler ,  Richard L. Sandstrom ,  Alexander I. Ershov ,  Shahryar Rokni

发明人： Leonard Lublin ,  David J. Warkentin ,  Palash P. Das ,  Brian C. Klene ,  R. Kyle Webb ,  Herve A. Besaucele ,  Ronald L. Spangler ,  Richard L. Sandstrom ,  Alexander I. Ershov ,  Shahryar Rokni

IPC分类号： H01S3101

CPC分类号： H01S3/005 ,  G03F7/70025 ,  G03F7/70041 ,  G03F7/7055 ,  G03F7/70575 ,  G03F7/70933 ,  H01S3/0057 ,  H01S3/0071 ,  H01S3/02 ,  H01S3/03 ,  H01S3/036 ,  H01S3/038 ,  H01S3/0385 ,  H01S3/0404 ,  H01S3/041 ,  H01S3/08004 ,  H01S3/08009 ,  H01S3/0943 ,  H01S3/097 ,  H01S3/09705 ,  H01S3/0971 ,  H01S3/0975 ,  H01S3/104 ,  H01S3/105 ,  H01S3/11 ,  H01S3/1305 ,  H01S3/134 ,  H01S3/139 ,  H01S3/22 ,  H01S3/2207 ,  H01S3/223 ,  H01S3/225 ,  H01S3/2251 ,  H01S3/2256 ,  H01S3/2258 ,  H01S3/2333 ,  H01S3/2366

摘要： The present invention provides a modular high repetition rate ultraviolet gas discharge laser light source for a production line machine. The system includes an enclosed and purged beam path with beam pointing control for delivery the laser beam to a desired location such as the entrance port of the production line machine. In preferred embodiments, the production line machine is a lithography machine and 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. This MOPA system is capable of output pulse energies approximately double the comparable single chamber laser system with greatly improved beam quality. A pulse stretcher more than doubles the output pulse length resulting in a reduction in pulse power (mJ/ns) as compared to prior art laser systems. This preferred embodiment is capable of providing illumination at a lithography system wafer plane which is approximately constant throughout the operating life of the lithography system, despite substantial degradation of optical components.

摘要翻译： 本发明提供一种用于生产线机器的模块化高重复率紫外线气体放电激光源。 该系统包括具有光束指向控制的封闭和清除的光束路径，用于将激光束传送到期望的位置，例如生产线机器的入口。 在优选实施例中，生产线机器是光刻机，并且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。 该MOPA系统能够以大大提高的光束质量将输出脉冲能量大约增加到相当的单室激光器系统的两倍。 与现有技术的激光系统相比，脉冲放大器使输出脉冲长度加倍，导致脉冲功率（mJ / ns）的降低。 该优选实施例能够在光刻系统晶片平面处提供照明，其在光刻系统的整个使用寿命期间大致恒定，尽管光学部件的实质性劣化。