Acta Photonica Sinica, Volume. 52, Issue 5, 0552207(2023)
High Precision Measurement Method of Wavelength Drift in Full Field of View for Solar Narrow Band Observation System Based on Lyot Filter(Invited)
References(20)
[1] AI Guoxiang. Birefringent filter and its application to astronomy[J]. Progress in Astronomy, 5, 317-329(1987).
[2] SCHERRER P H, SCHOU J, BUSH R I et al. The Helioseismic and Magnetic Imager (HMI) Investigation for the Solar Dynamics Observatory (SDO)[J]. Solar Physics, 275, 207-227(2012).
[3] DENG Yuanyong, ZHANG Haiying, YANG Jianfang et al. Design of the Full-disk Magneto Graph (FMG) onboard the ASO-S[J]. Research in Astronomy and Astrophysics, 19, 11-22(2019).
[4] AI Guoxiang. Solar magnetic field telescope[J]. Astronomical Research & Technology, 13, 5-7(1989).
[5] AI Guoxiang, HU Yuefeng. On principle of solar magnetic field telescope[J]. Acta Astronomica Sinica, 173-180(1986).
[6] GOODE P R, CAO W. The 1.6 m off-axis New Solar Telescope (NST) in big bear[C](2012).
[7] CAO W, GORCEIX N, COULTER R et al. Scientific instrumentation for the 1.6 m new solar telescope in big bear[J]. Astronomische Nachrichten, 331, 636-639(2010).
[8] SCHARMER G B, BJELKSJÖ K, KORHONEN T K et al. The 1-meter Swedish solar telescope[C], 4853, 341-350(2003).
[9] VAN NOORT M J, VAN DER VOORT L H M R. Stokes imaging polarimetry using image restoration at the Swedish 1-m solar telescope[J]. Astronomy and Astrophysics, 489, 429-440(2008).
[10] BALTHASAR H, VON D, KNEER F et al. GREGOR: the new german solar telescope[J]. Astrophysics, 368, 605-610(2007).
[11] DENKER C. Instrument and data analysis challenges for imaging spectropolarimetry[J]. Astronomische Nachrichten, 331, 648-651(2010).
[12] COUVIDAT S, SCHOU J, HOEKSEMA J T et al. Observables processing for the helioseismic and magnetic imager instrument on the solar dynamics observatory[J]. Solar Physics, 291, 1887-1938(2016).
[13] CAO W, GOODE P R, AHN K et al. NIRIS: the second generation near-infrared imaging spectro-polarimeter for the 1.6 meter new solar telescope[C], 291(2012).
[14] XU Zhi, YANG Lei, XIANG Yongyuan et al. An investigation of spectral-line profiles from the wavelength-scanning with a narrow-band Hɑ Lyot filter on the YNAO new vacuum solar telescope[J]. Astronomical Research and Technology, 11, 239-246(2014).
[15] WANG Liangkai, XU Zhi, JIN Zhenyu. The measurement and analysis of the wavelength shift of the FOV of narrow-band high-resolution imaging channel at NVST[J]. Astronomical Research and Technology, 15, 8-17(2018).
[16] WANG Jia, LIU Yangyi, RAO Changhui. A calibration method for Lyot filter[J]. Opto-Electronic Engineering, 47, 8-19(2020).
[17] COUVIDAT S, SCHOU J, SHINE R A et al. Wavelength dependence of the Helioseismic and Magnetic Imager (HMI) instrument onboard the Solar Dynamics Observatory (SDO)[J]. Solar Physics, 275, 285-325(2011).
[18] LIU Zhong, XU Jun, GU Bozhong et al. New vacuum solar telescope and observations with high resolution[J]. Research in Astronomy and Astrophysics, 705-718(2014).
[19] WANG Rui, XU Zhi, CHEN Yuchao et al. Field calibration of multiband high resolution image system with new vacuum solar telescope[J]. Acta Optica Sinica, 38, 11-20(2018).
[20] TITLE A M, ROSENBERG W J. Improvements in birefringent filters. 5: Field of view effects[J]. Applied Optics, 18, 3443-3456(1979).
Tools
Get Citation
Copy Citation Text
Xiqun WANG, Zhuo LV, Yuanfangzhou WANG, Yu FU, Xu TAN, Zhenyu JIN. High Precision Measurement Method of Wavelength Drift in Full Field of View for Solar Narrow Band Observation System Based on Lyot Filter(Invited)[J]. Acta Photonica Sinica, 2023, 52(5): 0552207
Paper Information
Category: Special Issue for Advanced Science and Technology of Astronomical Optics
Received: Dec. 31, 2022
Accepted: Feb. 21, 2023
Published Online: Jul. 19, 2023
The Author Email: Zhenyu JIN (kim@ynao.ac.cn)
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20