Author:
Xiong Wei,Ou Liyang,Chen Xuezhou,Li Chaobo
Abstract
As a kind of resonant device, the modulation efficiency of the photo-elastic modulator (PEM) is determined by its inherent resonance characteristics, including the resonance frequency and quality factor (Q-factor). The existing methods used to characterize the resonance performance of the PEM are mainly based on the optical method to measure the vibration parameters, but these methods are more complex, have a high cost, and are not able to accurately measure the quality factor. Therefore, this paper proposes an electrical characterization method based on impedance measurement. In this method, an equivalent circuit model for the PEM is established. By measuring the impedance vs. frequency curve of the PEM and using the equivalent circuit model for fitting analysis, we can obtain the parameters of the equivalent circuit model. With these parameters, we can eventually calculate the natural resonance frequency and quality factor. The above method was applied to some commercial PEM products for experimental verification. The experimental results show that this method can accurately measure the natural resonance frequency and quality factor of the PEM, and the error is less than 0.03%.
Reference14 articles.
1. Nano Focusing Method Based on Moire Fringe Phase Analysis
2. Glucose sensing in the presence of scattering particles using decomposition of partial Mueller matrix;Mukherjee;Proc. SPIE,2018
3. Linear and nonlinear chiro-optical properties of carvone molecule mirror-image configurations;Al-Basheer;Proc. SPIE,2019
4. Photoelastic modulator for the 055–13-μm range
5. Measurements of linear diattenuation and linear retardance spectra with a rotating sample spectropolarimeter