The appropriate bireflectance film series are selected to get thebeat-frequency of dual-frequency laser using anisotropic bireflectance film (DLABF) from 1.2 MHz to6 MHz. The maximum measurement velocity of the interf...The appropriate bireflectance film series are selected to get thebeat-frequency of dual-frequency laser using anisotropic bireflectance film (DLABF) from 1.2 MHz to6 MHz. The maximum measurement velocity of the interferometer utilizing DLABF can be up to 1.8 m/s.Generally the outputs of the DLABF in a transverse magnetic field are two orthogonalmicro-elliptical polarized components when DLABF can emit dual-frequency laser. When the laser tubeis spun in the magnetic field, the ellipticities of these two components are also changed. In somecertain relative angles, the outputs the DLABF are two almost ideally orthogonal linear polarizedcomponents. The frequency stabilization of DLABF is also discussed. The maximum variation of thebeat-frequency of the stabilized DLABF can be 0.15 kHz within 46 h. As no quarter wave plate (QWP)needed, DLABFs have better thermal stability than longitudinal Zeeman lasers.展开更多
基金This project is supported by National Natural Science Foundation of China (No.50027002).
文摘The appropriate bireflectance film series are selected to get thebeat-frequency of dual-frequency laser using anisotropic bireflectance film (DLABF) from 1.2 MHz to6 MHz. The maximum measurement velocity of the interferometer utilizing DLABF can be up to 1.8 m/s.Generally the outputs of the DLABF in a transverse magnetic field are two orthogonalmicro-elliptical polarized components when DLABF can emit dual-frequency laser. When the laser tubeis spun in the magnetic field, the ellipticities of these two components are also changed. In somecertain relative angles, the outputs the DLABF are two almost ideally orthogonal linear polarizedcomponents. The frequency stabilization of DLABF is also discussed. The maximum variation of thebeat-frequency of the stabilized DLABF can be 0.15 kHz within 46 h. As no quarter wave plate (QWP)needed, DLABFs have better thermal stability than longitudinal Zeeman lasers.
