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    • 3. 发明授权
    • Molecular fluorine laser system
    • 分子氟激光系统
    • US06690703B1
    • 2004-02-10
    • US10211971
    • 2002-08-02
    • Klaus Wolfgang VoglerSergei V. GovorkovGongxue HuaFrank VossElko Bergmann
    • Klaus Wolfgang VoglerSergei V. GovorkovGongxue HuaFrank VossElko Bergmann
    • H01S3225
    • H01S3/225H01S3/08H01S3/2308H01S3/2366
    • A molecular fluorine laser includes a discharge chamber filled with a gas mixture including molecular fluorine and a buffer gas and not including a laser active rare gas, multiple electrodes within the discharge chamber defining a discharge region therebetween connected to a pulsed discharge circuit for applying discharge pulses to the electrodes for energizing the gas mixture, and a resonator including the discharge chamber for generating an oscillator laser beam at a wavelength around 157 nm and a bandwidth of less than 0.6 pm. The laser further includes a power amplifier for increasing the energy of the attenuated oscillator laser beam to a second predetermined energy for lithographic processing, a line-narrowing unit for reducing the bandwidth, a low intensity suppressor module to suppress the weaker lines of the F2-laser, and a synchronization unit to synchronize the oscillator and amplifier.
    • 分子氟激光器包括:填充有分子氟和缓冲气体并且不包括激光活性稀有气体的气体混合物的放电室,放电室内的多个电极限定其间连接到脉冲放电电路的放电区域,用于施加放电脉冲 到用于激励气体混合物的电极,以及包括用于产生波长约157nm和带宽小于0.6μm的振荡器激光束的放电室的谐振器。 激光器还包括用于将衰减振荡器激光束的能量增加到用于光刻处理的第二预定能量的功率放大器,用于减小带宽的线窄变换单元,用于抑制F2- 激光器和同步单元来同步振荡器和放大器。
    • 9. 发明授权
    • Device for on-line control of output power of vacuum-UV laser
    • 在线控制真空UV激光输出功率的装置
    • US06463084B1
    • 2002-10-08
    • US09971796
    • 2001-10-03
    • Sergei V. GovorkovGongxue Hua
    • Sergei V. GovorkovGongxue Hua
    • H01S310
    • H01S3/225B23K26/12B23K26/128B23K26/705B23K2103/04G01J1/4257G03F7/70025G03F7/70558G03F7/70808H01S3/0014H01S3/134
    • A beam delivery system for a laser emitting at a relevant wavelength of less than 200 nm is provided. The system includes a sealed enclosure connected to the laser and surrounding the path of the beam as it exits the laser resonator. The enclosure extends between the laser output coupler and a photodetector sensitive at the wavelength of the relevant laser emission. The interior of the enclosure, and thus the beam path between the output coupler and the detector, is substantially free of species that strongly photoabsorb radiation at the relevant laser emission wavelength. A beam splitting element diverts at least a portion of the beam for measurement by the detector. The beam splitting element preferably includes a beam splitting mirror, holographic beam sampler or diffraction grating. In addition, optics are preferably provided for filtering a visible portion of the diverted beam, so that substantially only a VUV portion of the diverted beam is received at the detector. The filtering optics preferably include a diffraction grating, holographic beam sampler or one or more dichroic mirrors.
    • 提供了用于在小于200nm的相关波长处发射的激光束的光束传送系统。 该系统包括连接到激光器的密封外壳,并且当离开激光谐振器时围绕光束的路径。 外壳在激光输出耦合器和在相关激光发射波长下敏感的光电探测器之间延伸。 外壳的内部以及因此输出耦合器和检测器之间的光束路径基本上不含在相关的激光发射波长下强吸收辐射的物质。 分束元件将至少一部分光束转移到检测器进行测量。 分束元件优选地包括分束镜,全息光束采样器或衍射光栅。 此外,优选地提供光学器件用于过滤转向光束的可见部分,使得在检测器处基本上只接收转向光束的VUV部分。 滤光光学器件优选地包括衍射光栅,全息光束取样器或一个或多个二向色镜。