<trans-title xml:lang="en">Technique of detecting optical components based on coherent modulation imaging</trans-title>

Yin-Juan Ge; Xing-Chen Pan; Cheng Liu; Jian-Qiang Zhu

doi:10.7498/aps.69.20200224

Acta Physica Sinica, Volume. 69, Issue 17, 174202-1(2020)

Technique of detecting optical components based on coherent modulation imaging

Yin-Juan Ge1...2,3, Xing-Chen Pan1,2,*, Cheng Liu1,2, and Jian-Qiang Zhu12,* |Show fewer author(s)

¹Key Laboratory of High Power Laser and Physics, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China

²National Laboratory on High Power Laser and Physics, Chinese Academy of Sciences and China Academy of Engineering Physics, Shanghai 201800, China

³School of Physical Science and Technology, ShanghaiTech University, Shanghai 201210, China

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Fig. 1. (a) Basic scheme for the measurement of optical components using CMI; (b) photo of the experimental setup; (c) amplitude and (d) phase of the center part of the random phase plate reconstructed by ePIE. The scale bar of (c) is 0.198 mm.

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Fig. 2. Flowchart of iterative process.

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$(a) Photo of the plate glasses used in experiments; (b) diffraction pattern recorded by CCD; (c) phase map of plate glass obtained directly by phase subtraction. The section marked by the black dashed circle with a diameter of 79.1 mm is used for the analysis of PV and RMS. The constant phase slope is not removed for these calculations.$

Fig. 3. (a) Photo of the plate glasses used in experiments; (b) diffraction pattern recorded by CCD; (c) phase map of plate glass obtained directly by phase subtraction. The section marked by the black dashed circle with a diameter of 79.1 mm is used for the analysis of PV and RMS. The constant phase slope is not removed for these calculations.

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Fig. 4. Least-squares linear regressions of PV (a) and RMS (b) comparing the measurements from the CMI and Zygo interferometer.

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Fig. 5. Phase maps of ten different plate glasses measured by CMI and inteferometer.

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Fig. 6. (a) Photograph of an optical flat with PV = λ/20; phase maps of the optical flat, measured by the Zygo interferometer (b) and (c) by CMI. λ = 632.8 nm.

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Table 1.
CMI and interferometer results (λ).
CMI和干涉仪的测量结果(λ)

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Table 1.
CMI and interferometer results (λ).
CMI和干涉仪的测量结果(λ)

No.	${\overline {{\rm{PV}}} _{{\rm{CMI}}}}$	${S_{{\rm{pv}}}}$	${\rm{P}}{{\rm{V}}_{{\rm{Zygo}}}}$	${\overline {{\rm{RMS}}} _{{\rm{CMI}}}}$	${S_{{\rm{RMS}}}}$	${\rm{RM}}{{\rm{S}}_{{\rm{Zygo}}}}$
1	0.178	2.40 × 10^–3	0.148	0.054	6.40 × 10^–4	0.042
2	0.118	1.20 × 10^–3	0.169	0.028	4.60 × 10^–4	0.021
3	0.180	2.40 × 10^–3	0.179	0.038	4.80 × 10^–4	0.030
4	0.159	6.90 × 10^–4	0.206	0.023	2.20 × 10^–4	0.025
5	0.260	1.50 × 10^–3	0.221	0.075	3.00 × 10^–4	0.068
6	0.254	2.30 × 10^–3	0.243	0.074	5.90 × 10^–4	0.072
7	0.278	3.30 × 10^–3	0.252	0.071	7.60 × 10^–4	0.061
8	0.331	2.10 × 10^–3	0.358	0.099	5.50 × 10^–4	0.099
9	0.433	2.60 × 10^–3	0.400	0.114	8.10 × 10^–4	0.102
10	0.475	2.10 × 10^–3	0.445	0.138	3.90 × 10^–4	0.124

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Yin-Juan Ge, Xing-Chen Pan, Cheng Liu, Jian-Qiang Zhu. Technique of detecting optical components based on coherent modulation imaging[J]. Acta Physica Sinica, 2020, 69(17): 174202-1

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