Acta Photonica Sinica, Volume. 53, Issue 4, 0430001(2024)
Dual-channel Synchronous Calibration VIPA Spectrometer with Optical Waveguide Input
References(18)
[1] FISCHER D A, ANGLADA-ESCUDE G, ARRIAGADA P et al. State of the field: extreme precision radial velocities[J]. Publications of the Astronomical Society of the Pacific, 128, 066001(2016).
[2] WEBB J K, KING J A, MURPHY M T et al. Indications of a spatial variation of the fine structure constant[J]. Physical Review Letters, 107, 191101(2011).
[3] LISKE J, GRAZIAN A, VANZELLA E et al. Cosmic dynamics in the era of extremely large telescopes[J]. Monthly Notices of the Royal Astronomical Society, 386, 1192-1218(2008).
[4] PHASE C. Setting new standards with HARPS[J]. The Messenger, 114, 20(2003).
[5] DEKKER H, D'ODORICO S, KAUFER A et al. Design, construction and performance of UVES, the echelle spectrograph for the UT 2 Kueyen telescope at the ESO paranal observatory[C], 4008, 534-545(2000).
[6] PEPE F, CRISTIANI S, REBOLO R et al. ESPRESSO at VLT-on-sky performance and first results[J]. Astronomy & Astrophysics, 645, A96(2021).
[7] FAN Zhou, WANG Huijuan, JIANG Xiaojun et al. The xinglong 2.16-m telescope: current instruments and scientific projects[J]. Publications of the Astronomical Society of the Pacific, 128, 115005(2016).
[8] XIAO S, WEINER A M, LIN C. A dispersion law for virtually imaged phased-array spectral dispersers based on paraxial wave theory[J]. IEEE Journal of Quantum Electronics, 40, 420-426(2004).
[9] ZHU Xiaoming, LIN Dong, ZHANG Zhongnan et al. Dispersion characteristics of the multi-mode fiber-fed VIPA spectrograph[J]. The Astronomical Journal, 165, 228(2023).
[10] ZHU Xiaoming, LIN Dong, HAO Zhibo et al. A VIPA spectrograph with ultra-high resolution and wavelength calibration for astronomical applications[J]. The Astronomical Journal, 160, 135(2020).
[11] BOURDAROT G, LE COARER E, BONFILS X et al. NanoVipa: a miniaturized high-resolution echelle spectrometer, for the monitoring of young stars from a 6U Cubesat[J]. CEAS Space Journal, 9, 411-419(2017).
[12] BOURDAROT G, LE COARER E, MOUILLET D et al. Experimental test of a 40 cm-long R=100 000 spectrometer for exoplanet characterisation[C], 10702, 107025Y(2018).
[13] CARLOTTI A, BIDOT A, MOUILLET D et al. On-sky demonstration at palomar observatory of the near-IR, high-resolution VIPA spectrometer[C], 12184, 523-543(2022).
[14] PRIYADARSHI A, FEN L H, MHAISALKAR S G et al. Fiber misalignment in silicon V-groove based optical modules[J]. Optical Fiber Technology, 12, 170-184(2006).
[15] CHEN Jian, FENG Jijun, LIU Haipeng et al. Femtosecond laser modification of silica optical waveguides for potential Bragg gratings sensing[J]. Materials (Basel), 15, 6220(2022).
[16] LIN Dong, ZHU Zhuangzhuang, FENG Jijun et al. Multi-objects spectroscopy with compact arranged optical waveguides[J]. Acta Photonica Sinica, 52, 0552212(2023).
[18] PROBST R A, MILAKOVIĆ D, TOLEDO-PADRÓN B et al. A crucial test for astronomical spectrograph calibration with frequency combs[J]. Nature Astronomy, 4, 603-608(2020).
[19] TAYLOR J R, THOMPSON W[M]. An introduction to error analysis: the study of uncertainties in physical measurements(1982).
Tools
Get Citation
Copy Citation Text
Zhongnan ZHANG, Dong LIN, Xiaoming ZHU, Yutao WANG, Jijun FENG, Jinping HE. Dual-channel Synchronous Calibration VIPA Spectrometer with Optical Waveguide Input[J]. Acta Photonica Sinica, 2024, 53(4): 0430001
Paper Information
Category:
Received: Feb. 23, 2024
Accepted: Mar. 22, 2024
Published Online: May. 15, 2024
The Author Email: Jinping HE (jphe@niaot.ac.cn)
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20