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    • 1. 发明授权
    • Multichannel polarization stabilizer
    • 多通道极化稳定器
    • US08922771B2
    • 2014-12-30
    • US13419054
    • 2012-03-13
    • Gregory D. GoodnoMark E. WeberStanley Benjamin Weiss, IV
    • Gregory D. GoodnoMark E. WeberStanley Benjamin Weiss, IV
    • G01J4/00H01S3/067H01S3/13H01S3/23H01S3/00
    • H01S3/06754H01S3/0085H01S3/1307H01S3/2308H01S3/2383
    • A multichannel polarization stabilizer including a mixing device responsive to a sample beam and a reference beam that provides an in-phase signal including the mixed sample beam and reference beam having a relative phase of 0° and a quadrature phase signal including the mixed sample beam and reference beam having a relative phase of 90°. The stabilizer also includes a photodetector responsive to the quadrature phase signal that converts the quadrature phase signal to a quadrature phase electrical signal. A polarization demultiplexer circuit receives the quadrature phase electrical signal and measures the amplitude of a frequency tone in the sample beam and provides a polarization amplitude signal. A polarization controller receives the polarization amplitude signal and controls the reference beam to maximize the polarization amplitude signal.
    • 包括响应于采样光束的混合装置和参考光束的多通道偏振光稳定器,所述参考光束提供包括混合采样光束的同相信号和具有0°的相对相位的参考光束和包括混合样品光束的正交相位信号, 参考光束的相对相位为90°。 稳定器还包括响应于将正交相位信号转换为正交相位电信号的正交相位信号的光电检测器。 偏振解复用器电路接收正交相位电信号,并测量采样光束中的频率振幅,并提供极化振幅信号。 偏振控制器接收极化幅度信号并控制参考光束以使偏振振幅信号最大化。
    • 2. 发明申请
    • MULTICHANNEL POLARIZATION STABILIZER
    • 多通道极化稳定器
    • US20130105674A1
    • 2013-05-02
    • US13419054
    • 2012-03-13
    • Gregory D. GoodnoMark E. WeberStanley Benjamin Weiss, IV
    • Gregory D. GoodnoMark E. WeberStanley Benjamin Weiss, IV
    • G01J1/04G02F1/01
    • H01S3/06754H01S3/0085H01S3/1307H01S3/2308H01S3/2383
    • A multichannel polarization stabilizer including a mixing device responsive to a sample beam and a reference beam that provides an in-phase signal including the mixed sample beam and reference beam having a relative phase of 0° and a quadrature phase signal including the mixed sample beam and reference beam having a relative phase of 90°. The stabilizer also includes a photodetector responsive to the quadrature phase signal that converts the quadrature phase signal to a quadrature phase electrical signal. A polarization demultiplexer circuit receives the quadrature phase electrical signal and measures the amplitude of a frequency tone in the sample beam and provides a polarization amplitude signal. A polarization controller receives the polarization amplitude signal and controls the reference beam to maximize the polarization amplitude signal.
    • 包括响应于采样光束的混合装置和参考光束的多通道偏振光稳定器,所述参考光束提供包括混合采样光束的同相信号和具有0°的相对相位的参考光束和包括混合样品光束的正交相位信号, 参考光束的相对相位为90°。 稳定器还包括响应于将正交相位信号转换为正交相位电信号的正交相位信号的光电检测器。 偏振解复用器电路接收正交相位电信号,并测量采样光束中的频率振幅,并提供极化振幅信号。 偏振控制器接收极化幅度信号并控制参考光束以使偏振振幅信号最大化。
    • 5. 发明申请
    • COHERENT LASER ARRAY CONTROL SYSTEM AND METHOD
    • 相干激光阵列控制系统及方法
    • US20130315271A1
    • 2013-11-28
    • US13479760
    • 2012-05-24
    • Gregory D. Goodno
    • Gregory D. Goodno
    • H01S3/13
    • H01S3/1307H01S3/06754H01S3/1305H01S3/2383
    • In one embodiment, a system includes a master oscillator for generating a primary laser signal. A plurality of amplifiers amplifies a plurality of secondary laser signals and generates a plurality of amplified laser signals. A plurality of actuators adjusts a position, a beam angle, a path length, and a phase of the plurality of amplified laser signals. At least one control module controls the plurality of actuators that adjust the position, the beam angle, the path length, and the phase of the plurality of amplified laser signals. A combiner receives the amplified laser signals to generate a combined laser output signal. At least one filter samples the combined laser output signal to generate a plurality of phase errors as feedback for the control module to control at least one of the position, the beam angle, or the path length for the plurality of amplified laser signals.
    • 在一个实施例中,系统包括用于产生主激光信号的主振荡器。 多个放大器放大多个次级激光信号并产生多个放大的激光信号。 多个致动器调节多个放大的激光信号的位置,光束角度,路径长度和相位。 至少一个控制模块控制调节多个放大的激光信号的位置,光束角度,路径长度和相位的多个致动器。 组合器接收放大的激光信号以产生组合的激光输出信号。 至少一个滤波器对组合的激光输出信号进行采样,以产生多个相位误差作为控制模块的反馈,以控制多个放大的激光信号的位置,波束角或路径长度中的至少一个。
    • 6. 发明授权
    • Coherent laser array control system and method
    • 相干激光阵列控制系统及方法
    • US08792526B2
    • 2014-07-29
    • US13479760
    • 2012-05-24
    • Gregory D. Goodno
    • Gregory D. Goodno
    • H01S3/13
    • H01S3/1307H01S3/06754H01S3/1305H01S3/2383
    • In one embodiment, a system includes a master oscillator for generating a primary laser signal. A plurality of amplifiers amplifies a plurality of secondary laser signals and generates a plurality of amplified laser signals. A plurality of actuators adjusts a position, a beam angle, a path length, and a phase of the plurality of amplified laser signals. At least one control module controls the plurality of actuators that adjust the position, the beam angle, the path length, and the phase of the plurality of amplified laser signals. A combiner receives the amplified laser signals to generate a combined laser output signal. At least one filter samples the combined laser output signal to generate a plurality of phase errors as feedback for the control module to control at least one of the position, the beam angle, or the path length for the plurality of amplified laser signals.
    • 在一个实施例中,系统包括用于产生主激光信号的主振荡器。 多个放大器放大多个次级激光信号并产生多个放大的激光信号。 多个致动器调节多个放大的激光信号的位置,光束角度,路径长度和相位。 至少一个控制模块控制调节多个放大的激光信号的位置,光束角度,路径长度和相位的多个致动器。 组合器接收放大的激光信号以产生组合的激光输出信号。 至少一个滤波器对组合的激光输出信号进行采样,以产生多个相位误差作为控制模块的反馈,以控制多个放大的激光信号的位置,波束角或路径长度中的至少一个。
    • 10. 发明授权
    • Optical scheme for holographic imaging of complex diffractive elements in materials
    • 材料中复杂衍射元素的全息成像光学方案
    • US06297894B1
    • 2001-10-02
    • US09385999
    • 1999-08-30
    • R. J. Dwayne MillerGregory D. Goodno
    • R. J. Dwayne MillerGregory D. Goodno
    • G03H104
    • G03H1/0248G02B5/1857G02B5/32G02B6/02133G02B6/124G02B2006/12107G03H2210/12G03H2210/20
    • This invention discloses optical system and method for writing a refractive index pattern in a light transmissive or light absorbing sample. A light source for providing a short pulse laser beam in the femtosecond range having a low power per unit area is coupled to provide the short pulse beam to a diffractive optical element. A curved mirror collects light transmitted through or reflected from the diffractive optical element preserves an image relating to characteristics of the diffractive optical element encoded within the collected light, and directs the collected light in wavelength independent manner while preserving the image of the diffractive optical element encoded within the collected light. A rod lens demagnifies the image within the light received from the curved mirror so as to increase its power per unit area when directed to the light transmissive or absorbing sample to be permanently impressed therein.
    • 本发明公开了一种在透光或光吸收样品中写入折射率图案的光学系统和方法。 用于在具有每单位面积的低功率的飞秒范围内提供短脉冲激光束的光源被耦合以向衍射光学元件提供短脉冲光束。 收集透射通过衍射光学元件或从衍射光学元件反射的光的曲面镜保留与所收集的光中编码的衍射光学元件的特性有关的图像,并且以波长独立的方式引导收集的光,同时保持被编码的衍射光学元件的图像 在收集的光下。 棒状透镜在从弯曲镜接收的光中对图像进行缩小,以便当指向透光或吸收样品以在其中永久地印刷时增加其每单位面积的功率。