Impact of Position Mismatch Between Crystal and Electrode on Performance of Acousto-Optic Frequency Shifter

Xing Fan; Wei Zhang; Guanghui Guo; Chaoqian Su; Jing Li; Peng Zhang; Weimin Chen

doi:10.3788/AOS202141.2223001

Acta Optica Sinica, Volume. 41, Issue 22, 2223001(2021)

Impact of Position Mismatch Between Crystal and Electrode on Performance of Acousto-Optic Frequency Shifter

Xing Fan¹, Wei Zhang^1、*, Guanghui Guo², Chaoqian Su¹, Jing Li¹, Peng Zhang^1、**, and Weimin Chen¹

¹Key Lab of Optoelectronic Technology & Systems Ministry of Education, College of Opto-Electronic Engineering, Chongqing University, Chongqing 400044, China;

²AECC Sichuan Gas Turbine Establishment, Mianyang, Sichuan 621000, China

show less

Abstract Get PDF(in Chinese)

Figures & Tables(14)

Fig. 1. Structure of acoustooptic frequency shifter and schematic of acoustooptic interaction. (a) Typical structure of acoustooptic frequency shifter; (b) schematic of acousto－optic interaction; (c) vector diagram of momentum mismatch

Download full size

Fig. 2. Three typical assembly dislocation relation diagrams. (a) Lateral dislocation; (b) tilt dislocation; (c) axial dislocation

Download full size

Fig. 3. Typical axial dislocation diagram. (a) Bilateral dislocation; (b) unilateral dislocation; (c) equivalent unilateral dislocation

Download full size

Fig. 4. Simulation model and sound pressure level distribution of ultrasonic waves in AOC. (a) Surface sound pressure level of bilateral dislocation; (b) surface sound pressure level of unilateral dislocation; (c) sound pressure level isolines of meridian plane of bilateral dislocation; (d) sound pressure level isolines of meridian plane of unilateral dislocation

Download full size

Fig. 5. Relationship between ΔL and Δl under mismatch condition and their fitting curve. (a) Bilateral dislocation; (b) unilateral dislocation

Download full size

Fig. 6. Equivalent propagation path of incident light under different conditions. (a) Bilateral dislocation; (b) unilateral dislocation; (c) position matching

Download full size

Fig. 7. Transmission interference spectral curves under different conditions. (a) Bilateral dislocation; (b) unilateral dislocation; (c) position matching

Download full size

Fig. 8. Frequency spectrum and its partial enlargement under different conditions. (a) Bilateral dislocation；(b) unilateral dislocation; (c) position matching

Download full size

Fig. 9. Optical system using acoustooptic frequency shifter

Download full size

Fig. 10. Power spectrum signal of system output. (a) Power spectrum without mismatch; (b) power spectrum with mismatch

Download full size

Fig. 11. Length measurement system without acoustic interaction occurs region

Download full size

Fig. 12. Transmission spectra of different acousto－optic frequency shifters. (a) SGYF40－1550－1；(b) SGYF80－1550－1; (c) SGYF100－1550－1; (d) SGYF150－1550－1

Download full size

Fig. 13. Transmission spectrum of glass plate

Download full size

Table 1. Length of without acoustic interaction occurs region in different acousto－optic frequency shifters
View table
Table 1. Length of without acoustic interaction occurs region in different acousto－optic frequency shifters
Type SGYF40－1550－1 SGYF80－1550－1 SGYF100－1550－1 SGYF150－1550－1
Length/μm 1458.07 1532.67 1045.99 1289.19

Tools

Get Citation

Copy Citation Text

Xing Fan, Wei Zhang, Guanghui Guo, Chaoqian Su, Jing Li, Peng Zhang, Weimin Chen. Impact of Position Mismatch Between Crystal and Electrode on Performance of Acousto-Optic Frequency Shifter[J]. Acta Optica Sinica, 2021, 41(22): 2223001

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites