Application of automatic collimation technology for pupil and optical axis in laser beam control

Zhixiong Jiang; Ping Xie; Wei Yan

doi:10.11884/HPLPB202335.230077

Journals >High Power Laser and Particle Beams >Volume 35 >Issue 8 >Page 081006 > Article

High Power Laser and Particle Beams
Vol. 35, Issue 8, 081006 (2023)

Application of automatic collimation technology for pupil and optical axis in laser beam control

Zhixiong Jiang, Ping Xie, and Wei Yan

Author Affiliations

Institute of Applied Electronics, CAEP, Mianyang 621900, China

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DOI: 10.11884/HPLPB202335.230077 Cite this Article

Zhixiong Jiang, Ping Xie, Wei Yan. Application of automatic collimation technology for pupil and optical axis in laser beam control[J]. High Power Laser and Particle Beams, 2023, 35(8): 081006 Copy Citation Text

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Fig. 1. Pupil and optical axis coupling optical path arrangement

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Fig. 2. Coupling control process of the pupil and the optical axis

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Fig. 3. Verifying test optical path

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Fig. 4. The pupil and optical axis mirrors

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Fig. 5. The pupil and optical axis image

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T₁	P₁	E₁/mm	T₂	P₂	E₂/μrad	M/s
(1046.6,1022.2)	(1061.6,1020.2)	0.24	(511,511.8)	(513.5,516.5)	5.16	0.93
(1032.3,1021.8)	(1059.7,1019)	0.42	(509.6,512.1)	(514.2,521.6)	10.72	1.52
(1023.3,1022.2)	(1057.4,1019.3)	0.57	(512.6,511.1)	(514.6,523.8)	13.15	1.9
(1009.3,1022.5)	(1054.8,1020.1)	0.75	(512.4,512.1)	(515.3,526.5)	16.18	2.48
(999.4,1022.1)	(1052.2,1019.3)	0.97	(511.4,512.2)	(515.8,529.4)	19.38	2.89

Table 1. Coupling when the pupil deviates from the target position in X direction

T₁	P₁	E₁/mm	T₂	P₂	E₂/μrad	M/s
(1063.3,1012.7)	(1064.5,1018.6)	0.27	(512.4,511.4)	(507.8,512.4)	4.59	0.57
(1064,1002.8)	(1065.6,1016.5)	0.46	(514.5,510.3)	(501.8,513.6)	11.23	0.97
(1064.3,989.3)	(1066.3,1015.3)	0.57	(513.7,511)	(497.6,514.9)	15.98	1.51
(1064.2,972.5)	(1067.2,1013.6)	0.72	(513.3,510.1)	(496.8,516)	17.1	2.19
(1063.5,967.1)	(1067.8,1010.8)	0.95	(513.8,513.3)	(494.8,516.5)	19.34	2.4

Table 2. Coupling when the pupil deviates from the target position in Y direction

T₁	P₁	E₁/mm	T₂	P₂	E₂/μrad	M/s
(1065.8,1020.9)	(1064.2,1021.7)	0.03	(412.1,509.8)	(509.9,511.8)	2.3	0.28
(1064.5,1021.7)	(1062.8,1021.2)	0.12	(306.6,511.1)	(516.6,513.2)	5.17	0.5
(1064.5,1021)	(1063.2,1020.4)	0.14	(205.5,508)	(519.5,510.8)	8.26	0.65
(1063.4,1021.1)	(1063.4,1020.5)	0.13	(111.6,505.3)	(523.7,514.1)	12.93	0.84
(1063.5,1021.4)	(1063.6,1020.2	0.15	(8.6,507.8)	(527.4,513.6)	16.85	1

Table 3. Coupling when the optical axis deviates from the target position in X direction

T₁	P₁	E₁/(mm)	T₂	P₂	E₂/μrad	M/s
(1064.2,1021.9)	(1064.2,1019.9)	0.17	(513.5,409.2)	(511.6,514.6)	2.86	0.36
(1064.5,1021.9)	(1064.4,1019.6)	0.19	(513.1,302)	(509.5,506.8)	6.28	0.52
(1064.2,1022.2)	(1064.1,1020.1)	0.15	(513.3,213.9)	(508.4,503.6)	9.94	0.64
(1064.6,1024.3)	(1063.9,1020.3)	0.14	(512.6,113.5)	(509.1,498.8)	14.7	0.71
(1064.3,1024.5)	(1064.1,1020.6)	0.11	(508.4,10.2)	(508.7,496.7)	17.03	0.86

Table 4. Coupling when the optical axis deviates from the target position in Y direction

Zhixiong Jiang, Ping Xie, Wei Yan. Application of automatic collimation technology for pupil and optical axis in laser beam control[J]. High Power Laser and Particle Beams, 2023, 35(8): 081006

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