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    • 5. 发明授权
    • Systems and method to substantially mitigate AC stark shift effects in a sensor system
    • 基本上减轻传感器系统中的交流变换效应的系统和方法
    • US09229073B2
    • 2016-01-05
    • US13727926
    • 2012-12-27
    • Thad G. WalkerMichael D. BulatowiczMichael S. LarsenRobert C. GriffithPhilip R. Clark
    • Thad G. WalkerMichael D. BulatowiczMichael S. LarsenRobert C. GriffithPhilip R. Clark
    • G01R33/26G01C19/62
    • G01R33/26G01C19/62
    • One embodiment includes a sensor system. The system includes a cell system comprising a pump laser configured to generate a pump beam to polarize alkali metal particles enclosed within a sensor cell. The system also includes a detection system comprising a probe laser configured to generate a probe beam. The detection system can also be configured to calculate at least one measurable parameter based on characteristics of the probe beam passing through the sensor cell resulting from precession of the polarized alkali metal particles in response to an applied magnetic field. The system further includes an AC Stark shift control system configured to frequency-modulate the pump beam and to control a center frequency of a frequency-modulated pump beam based on the characteristics of the probe beam passing through the sensor cell to substantially stabilize and mitigate the effects of AC Stark shift on the at least one measurable parameter.
    • 一个实施例包括传感器系统。 该系统包括一个电池系统,该电池系统包括被配置成产生泵浦光束以使包围在传感器电池内的碱金属颗粒极化的泵浦激光器。 该系统还包括检测系统,其包括被配置为产生探测光束的探测激光器。 检测系统还可以被配置为基于由施加的磁场响应于偏振的碱金属颗粒的进动而导致通过传感器单元的探针束的特性来计算至少一个可测量的参数。 该系统还包括AC Stark变速控制系统,其配置成对泵浦波束进行频率调制,并且基于通过传感器单元的探测光束的特性来控制调频泵浦光束的中心频率,以基本上稳定和减轻 AC Stark移位对至少一个可测量参数的影响。
    • 6. 发明申请
    • NUCLEAR MAGNETIC RESONANCE GYROSCOPE MECHANIZATION
    • 核磁共振GYROSCOPE机构
    • US20110025330A1
    • 2011-02-03
    • US12534641
    • 2009-08-03
    • Michael D. BulatowiczMichael S. LarsenRobert Griffith
    • Michael D. BulatowiczMichael S. LarsenRobert Griffith
    • G01R33/44
    • G01C19/62G01R33/26
    • One embodiment of the invention includes a nuclear magnetic resonance (NMR) gyroscope system. The system includes a gyro cell that is sealed to enclose an alkali metal vapor, a first gyromagnetic isotope, a second gyromagnetic isotope, and a third gyromagnetic isotope. The system also includes a magnetic field generator configured to generate a substantially uniform magnetic field that is provided through the gyro cell to cause the first, second, and third gyromagnetic isotopes to precess. The system further includes an angular rotation sensor configured to measure a rotation angle about a sensitive axis of the NMR gyroscope system based on measured precession angles of the first, second, and third gyromagnetic isotopes.
    • 本发明的一个实施例包括核磁共振(NMR)陀螺仪系统。 该系统包括密封以包围碱金属蒸气,第一回旋磁同位素,第二回旋磁同位素和第三回旋磁同位素的陀螺仪。 该系统还包括磁场发生器,其被配置为产生通过陀螺仪单元提供的基本均匀的磁场,以使第一,第二和第三回旋磁同位素进入。 该系统还包括角度旋转传感器,该角度旋转传感器被配置为基于测量的第一,第二和第三回旋磁同位素的进动角度来测量关于NMR陀螺仪系统的敏感轴的旋转角度。
    • 7. 发明授权
    • Nuclear magnetic resonance gyroscope mechanization
    • 核磁共振陀螺机械化
    • US08159220B2
    • 2012-04-17
    • US12534641
    • 2009-08-03
    • Michael D. BulatowiczMichael S. LarsenRobert Griffith
    • Michael D. BulatowiczMichael S. LarsenRobert Griffith
    • G01V3/00
    • G01C19/62G01R33/26
    • One embodiment of the invention includes a nuclear magnetic resonance (NMR) gyroscope system. The system includes a gyro cell that is sealed to enclose an alkali metal vapor, a first gyromagnetic isotope, a second gyromagnetic isotope, and a third gyromagnetic isotope. The system also includes a magnetic field generator configured to generate a substantially uniform magnetic field that is provided through the gyro cell to cause the first, second, and third gyromagnetic isotopes to precess. The system further includes an angular rotation sensor configured to measure a rotation angle about a sensitive axis of the NMR gyroscope system based on measured precession angles of the first, second, and third gyromagnetic isotopes.
    • 本发明的一个实施例包括核磁共振(NMR)陀螺仪系统。 该系统包括密封以包围碱金属蒸气,第一回旋磁同位素,第二回旋磁同位素和第三回旋磁同位素的陀螺仪。 该系统还包括磁场发生器,其被配置为产生通过陀螺仪单元提供的基本均匀的磁场,以使第一,第二和第三回旋磁同位素进入。 该系统还包括角度旋转传感器,该角度旋转传感器被配置为基于测量的第一,第二和第三回旋磁同位素的进动角度来测量关于NMR陀螺仪系统的敏感轴的旋转角度。