Laser Journal, Volume. 45, Issue 6, 28(2024)
Near-infrared photodectection system design for solar spectrum monitor
[1] [1] Woods T N, Harder J W, Kopp G, et al. Solar-cycle variability results from the solar radiation and climate experiment (SORCE) mission[J]. Solar Physics, 2022, 297(4): 43.
[2] [2] Eftah M, Damé L, Bolsée D, et al. A new version of the SOLAR-ISS spectrum covering the 165 - 3000 nm spectral region[J]. Solar Physics, 2020, 295: 1-16.
[3] [3] Richard E, Harber D, Coddington O, et al. SI-traceable spectral irradiance radiometric characterization and absolute calibration of the TSIS - 1 Spectral Irradiance Monitor (SIM)[J]. Remote Sensing, 2020, 12(11): 1818.
[4] [4] Richard E, Harber D, Drake G, et al. Compact spectral irradiance monitor flight demonstration mission[C]//Cube-Sats and SmallSats for Remote Sensing III. SPIE, 2019, 11131: 15-34.
[6] [6] Meftah M, Damé L, Bolsée D, et al. A New Solar Spectrum from 656 to 3088 nm[J]. Solar Physics, 2017, 292: 1-21.
[7] [7] Richard E C, Harber D, Coddington O, et al. Implementation of solar spectral irradiance measurements from the international space station: the TSIS-1 first light and early mission results[C]//AGU Fall Meeting Abstracts. 2018, 2018: SH32B-07.
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LI Xiaoxi, LI Yue, HUANG Yu, YANG Xiaohu, LI Zhanfeng, WANG Biao. Near-infrared photodectection system design for solar spectrum monitor[J]. Laser Journal, 2024, 45(6): 28
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Received: Jan. 16, 2024
Accepted: Nov. 26, 2024
Published Online: Nov. 26, 2024
The Author Email: Yu HUANG (ssshycn@yahoo.com.cn)