Chinese Optics Letters, Volume. 16, Issue 9, 090701(2018)
Characterizing a liquid crystal spatial light modulator at oblique incidence angles using the self-interference method
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Fig. 2. Self-interference measurement system of LC-SLM under oblique incidence with (a) small incident angle and (b) large incident angle.
Fig. 4. Experimental results: (a) original fringe pattern, (b) extracted fringe pattern by red rectangle, (c) FFT result of one row.
Fig. 5. Comparisons of our proposed method with Fuentes’ method using data from eight experiments. (a) The four phase modulation curves were obtained using Fuentes’ method; (b) the four curves were obtained using our proposed method; (c) the maximum phase difference curves of Fuentes’ method (black squares) and our proposed method (red circles).
Fig. 6. Phase modulation properties of LC-SLM at small incident angles: (a) phase modulation curves for oblique illumination angles of 0°, 1°, 2°, 3°, 4°, 5°; (b) phase modulation values for specific gray levels (0, 48, 96, 152, 200, 255) under different incident angles.
Fig. 7. Phase modulation properties of LC-SLM at large incident angles: (a) phase modulation curves for oblique illumination angles of 0°, 10°, 20°, 30°, 40°, 45°; (b) phase modulation values for specific gray levels (0, 48, 96, 152, 200, 224, 240, 255) under different incident angles.
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Zixin Zhao, Yiying Zhuang, Zhaoxian Xiao, Hangying Zhang, Chen Fan, Hehui Geng, Hong Zhao, "Characterizing a liquid crystal spatial light modulator at oblique incidence angles using the self-interference method," Chin. Opt. Lett. 16, 090701 (2018)
Paper Information
Category: Fourier Optics and Signal Processing
Received: Apr. 9, 2018
Accepted: Aug. 7, 2018
Posted: Aug. 7, 2018
Published Online: Sep. 6, 2018
The Author Email: Zixin Zhao (zixinzhao@xjtu.edu.cn)
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