Behavior of Signal from Optical Circuit of Quantum Rotation Sensor Based on Nuclear Magnetic Resonance

E. N. Popov; K. A. Barantsev; N. A. Ushakov; A. N. Litvinov; L. B. Liokumovich; A. N. Shevchenko; F. V. Sklyarov; A. V. Medvedev

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Behavior of Signal from Optical Circuit of Quantum Rotation Sensor Based on Nuclear Magnetic Resonance

机译：基于核磁共振的量子旋转传感器光路信号行为

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The paper considers a common operation principle of a quantum rotation sensor based on nuclear magnetic resonance, giving a semi-classical description of processes in the sensor circuit, that is useful for obtaining the analytical representation of a signal at the optical circuit output. The principles of numerical calculation are briefly presented for an optical signal of the rotation sensor based on a one-dimensional quantum model. Comparison of calculations according to classical model and more stringent quantum model has shown that the sensor signal has a more complicated structure than that following from the classical description which shows only some properties of dynamic processes in the circuit. The results are important for the development of methods for demodulating the quantum rotation sensor optical signal and for estimation of expected characteristics of practical devices.

机译：本文考虑了基于核磁共振的量子旋转传感器的通用工作原理，给出了传感器电路中过程的半经典描述，这对于获得光电路输出处信号的解析表示很有用。简要介绍了基于一维量子模型的旋转传感器光信号的数值计算原理。根据经典模型和更严格的量子模型进行的计算比较表明，传感器信号的结构要比经典描述中的复杂，后者仅显示电路中动态过程的某些特性。这些结果对于开发用于解调量子旋转传感器光信号的方法以及估计实际设备的预期特性非常重要。

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来源
《Gyroscopy and navigation》 |2018年第3期|183-190|共8页
作者
E. N. Popov; K. A. Barantsev; N. A. Ushakov; A. N. Litvinov; L. B. Liokumovich; A. N. Shevchenko; F. V. Sklyarov; A. V. Medvedev;
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作者单位

Peter the Great St. Petersburg Polytechnic University;

Concern CSRI Elektropribor, JSC;

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原文格式 PDF
正文语种 eng
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关键词
nuclear magnetic resonance; electronic paramagnetic resonance; polyharmonic signal; rotation sensor;

机译：核磁共振;电子顺磁共振;多谐波信号;旋转传感器;

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专利

1. Frequency Line of Nuclear Magnetic Resonance in Quantum Rotation Sensor: Negative Effect of Detection Circuit [J] . E. N. Popov, K. A. Barantsev, A. N. Litvinov, Gyroscopy and navigation . 2017,第2期

机译：量子旋转传感器中核磁共振的频率线：检测电路的负效应
2. Heteronuclear H-1-C-13 multiple-spin correlation in solid-state nuclear magnetic resonance: Combining rotational-echo double-resonance recoupling and multiple-quantum spectroscopy [J] . Saalwachter K., Spiess HW. The Journal of Chemical Physics . 2001,第13期

机译：固态核磁共振中的异核H-1-C-13多纺丝相关性：旋转回波双共振耦合和多量子光谱相结合
3. The Effect of the Polarization Characteristics of Probe Light on the Signal of Optically Detected Magnetic Resonance in Magnetometric and Gyroscopic Quantum Sensors [J] . Vershovskii A. K., Dmitriev S. P., Pazgalev A. S., Technical physics letters: Letters to the Russian journal of applied physics . 2019,第10期

机译：探针光偏振特性对磁动率和陀螺量子传感器中光学检测磁共振信号的影响
4. Nuclear magnetic resonance gyroscope: Developing a primary rotation sensor [C] . Dennis Bevan, Michael Bulatowicz, Philip Clark, IEEE International Symposium on Inertial Sensors and Systems . 2018

机译：核磁共振陀螺仪：开发主旋转传感器
5. Strain enhanced optically pumped nuclear magnetic resonance in bulk and quantum confined III-V semiconductors [D] . Wood, Ryan Matthew 2014

机译：块状和量子约束III-V半导体中的应变增强型光泵核磁共振
6. Two-dimensional nuclear magnetic resonance spectroscopy with a microfluidic diamond quantum sensor [O] . Janis Smits, Joshua T. Damron, Pauli Kehayias, 2019

机译：带有微流体金刚石量子传感器的二维核磁共振光谱
7. Presentation Quantum Computation Based on Many Level Quantum System and SU(n) Cohered States and Qubit, Qutrit and Qubit Using Nuclear Magnetic Resonance Technique and Nuclear Quadrupole Resonance [O] . 2014

机译：基于许多级量子系统和SU（N）相结的呈现量子计算，使用核磁共振技术和核四边形共振的Qutrit和Qubit，Qutrit和Qubit

Behavior of Signal from Optical Circuit of Quantum Rotation Sensor Based on Nuclear Magnetic Resonance

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