Design of high resolution optical spectrum detecting system based on interference technique

Liu Yuhong; Cheng Qiluan; Tan Zuojun; Chen Jianjun

doi:10.3788/IRLA201948.0417005

The optical spectrum details could be detected theoretically even as low as MHz lever based on heterodyne interference principle. A scheme design of optical spectrum detecting system based on heterodyne interference technique was introduced,in which the signal transmission principle from the 90optical mixer to the balanced detector was deduced. Moreover, the relationship between the settings of the local oscillator, as well as the filter intermediate frequency and the system resolution was concluded. The compact spectrum detecting system is built upon OptiSystem software, in which the wavelength sweep and iteration could be used to simulate actual local oscillator operating mode, thus the feasibility and superiority of the ultra-high resolution spectrum analysis function were verified. In the end, the simulation results of different linewidth and scanning step length of local oscillator, as well as the filtering parameters was given in 40 MHz frequency interval. The resolution requirement on the local oscillator and filter was concluded.

Design of high resolution optical spectrum detecting system based on interference technique

1. College of Sciences,Huazhong Agricultural University,Wuhan 430070,China;

2. Institute of Applied Physics,Huazhong Agricultural University,Wuhan 430070,China

Received Date: 2018-11-14

Rev Recd Date: 2018-12-18

Publish Date: 2019-04-25

Key words:

Abstract: The optical spectrum details could be detected theoretically even as low as MHz lever based on heterodyne interference principle. A scheme design of optical spectrum detecting system based on heterodyne interference technique was introduced,in which the signal transmission principle from the 90optical mixer to the balanced detector was deduced. Moreover, the relationship between the settings of the local oscillator, as well as the filter intermediate frequency and the system resolution was concluded. The compact spectrum detecting system is built upon OptiSystem software, in which the wavelength sweep and iteration could be used to simulate actual local oscillator operating mode, thus the feasibility and superiority of the ultra-high resolution spectrum analysis function were verified. In the end, the simulation results of different linewidth and scanning step length of local oscillator, as well as the filtering parameters was given in 40 MHz frequency interval. The resolution requirement on the local oscillator and filter was concluded.

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Reference (15)

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Design of high resolution optical spectrum detecting system based on interference technique

doi: 10.3788/IRLA201948.0417005

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