High-Precision Spot Detection of Driving Laser for Extreme Ultraviolet Lithography Light Sources

Xinpeng Li; Deyang Yu; Jin Guo; Fei Chen; Qikun Pan

doi:10.3788/CJL220686

[1] Dou Y P, Sun C K, Lin J Q. Laser-produced plasma light source for extreme ultraviolet lithography[J]. Chinese Optics, 6, 20-33(2013).

[2] Zong N, Hu W M, Wang Z M et al. Research progress on laser-produced plasma light source for 13.5 nm extreme ultraviolet lithography[J]. Chinese Optics, 13, 28-42(2020).

[3] Zhang R R[D]. Research on short pulse CO₂laser amplification and noiselightisolationtechnology(2021).

[4] Kral L. Automatic beam alignment system for a pulsed infrared laser[J]. Review of Scientific Instruments, 80, 013102(2009).

[5] Boge R, Horáček J, Mazůrek P et al. Robust method for longterm energy and pointing stabilization of high energy,high average power solid state lasers[J]. Review of Scientific Instruments, 89, 023113(2018).

[6] Cui W H, Zhu J Q, He Y Q et al. Target deviation of SG facility based on active vibration absorption control[J]. Chinese Journal of Lasers, 48, 2401003(2021).

[7] Li X P, Yu D Y, Pan Q K et al. Beam pointing stability of extreme ultraviolet lithography light source system[J]. Laser&Optoelectronics Progress, 58, 1714004(2021).

[8] Fan Z G, Zuo B J, Zhang A H[M]. Photoelectric testing technology(2008).

[9] Zhu F, Li Y X, Tan J B. Design of high-accuracy laser beam collimation system[J]. Optics and Precision Engineering, 28, 817-826(2020).

[10] Cui H, Guo R, Li X Q et al. Calibration of laser triangular displacement sensor based on nonlinear fitting[J]. Chinese Journal of Lasers, 47, 0904003(2020).

[11] Tang Y Q[D]. Research on laser positioning system based on four quadrant detector(2017).

[12] Zhao YC, Song YH. Laser directionfindingdeviceand application[J]. Electro-Optic Technology Application, 32, 38-41(2017).

[13] Ma S W, Chen W J, Gao W et al. Research on the laser angle deceptionjammingtechnologyoflasercountermeasure[J]. Proceedings of SPIE, 9671, 96710B(2015).

[14] Qiu X, Wang S C, Liu Z G et al. Modeling research on angle measurement accuracy of four-quadrant detector of laser seeker[J]. Infrared and Laser Engineering, 49, 20190453(2020).

[15] Dixit A, Porwal V, Mamgain A K et al. High resolution quadrant detector based tip-tilt sensor for adaptive optics[M]. Jain V K,Verma A. Physics of semiconductor devices. Environmental science and engineering, 503-504(2014).

[16] Gu S S, Guo Y, Ju Y et al. Design of optical quality detection system for four-quadrant detector lens[J]. Acta Optica Sinica, 42, 0222001(2022).

[17] Wu J B[D]. The research for technology of high precise laser facula position detection based on the quadrant detector(2016).

[18] Salles L P, de Lima Monteiro D W. Designing the response of an optical quad-cell as position-sensitive detector[J]. IEEE Sensors Journal, 10, 286-293(2010).