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Sciences with the 2.5-meter Wide Field Survey Telescope (WFST)

Authors :
WFST Collaboration
Wang, Tinggui
Liu, Guilin
Cai, Zhenyi
Geng, Jinjun
Fang, Min
He, Haoning
Jiang, Ji-an
Jiang, Ning
Kong, Xu
Li, Bin
Li, Ye
Luo, Wentao
Pan, Zhizheng
Wu, Xuefeng
Yang, Ji
Yu, Jiming
Zheng, Xianzhong
Zhu, Qingfeng
Cai, Yi-Fu
Chen, Yuanyuan
Chen, Zhiwei
Dai, Zigao
Fan, Lulu
Fan, Yizhong
Fang, Wenjuan
He, Zhicheng
Hu, Lei
Hu, Maokai
Jin, Zhiping
Jiang, Zhibo
Li, Guoliang
Li, Fan
Li, Xuzhi
Liang, Runduo
Lin, Zheyu
Liu, Qingzhong
Liu, Wenhao
Liu, Zhengyan
Liu, Wei
Liu, Yao
Lou, Zheng
Qu, Han
Sheng, Zhenfeng
Shi, Jianchun
Shu, Yiping
Su, Zhenbo
Sun, Tianrui
Wang, Hongchi
Wang, Huiyuan
Wang, Jian
Wang, Junxian
Wei, Daming
Wei, Junjie
Xue, Yongquan
Yan, Jingzhi
Yang, Chao
Yuan, Ye
Yuan, Yefei
Zhang, Hongxin
Zhang, Miaomiao
Zhao, Haibin
Zhao, Wen
Source :
SCPMA-Vol. 66 No. 10: 109512 (2023)
Publication Year :
2023

Abstract

The Wide Field Survey Telescope (WFST) is a dedicated photometric surveying facility being built jointly by the University of Science and Technology of China and the Purple Mountain Observatory. It is equipped with a 2.5-meter diameter primary mirror, an active optics system, and a mosaic CCD camera with 0.73 gigapixels on the primary focal plane for high-quality image capture over an FOV of 6.5-square-degree. It is anticipated that WFST will be set up at the Lenghu site in the summer of 2023 and begin to observe the northern sky in four optical bands (u, g, r, and i) with a range of cadences, from hourly/daily in the Deep High-Cadence Survey (DHS) program to semiweekly in the Wide-Field Survey (WFS) program, three months later. During a photometric night, a nominal 30 s exposure in the WFS program will reach a depth of 22.27, 23.32, 22.84, and 22.31 (AB magnitudes) in these four bands, respectively, allowing for the detection of a tremendous amount of transients in the low-z universe and a systematic investigation of the variability of Galactic and extragalactic objects. In the DHS program, intranight 90 s exposures as deep as 23 (u) and 24 mag (g), in combination with target of opportunity follow-ups, will provide a unique opportunity to explore energetic transients in demand for high sensitivities, including the electromagnetic counterparts of gravitational wave events, supernovae within a few hours of their explosions, tidal disruption events and fast, luminous optical transients even beyond a redshift of unity. In addition, the final 6-year co-added images, anticipated to reach g=25.8 mag in WFS or 1.5 mags deeper in DHS, will be of fundamental importance to general Galactic and extragalactic science. The highly uniform legacy surveys of WFST will serve as an indispensable complement to those of LSST that monitor the southern sky.<br />Comment: 48 pages

Details

Database :
arXiv
Journal :
SCPMA-Vol. 66 No. 10: 109512 (2023)
Publication Type :
Report
Accession number :
edsarx.2306.07590
Document Type :
Working Paper
Full Text :
https://doi.org/10.1007/s11433-023-2197-5