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1. GWOPS: A VO-technology Driven Tool to Search for the Electromagnetic Counterpart of Gravitational Wave Event

Author

Yihan Tao, Sisi Yang, Dongwei Fan, Chenzhou Cui, Dong Xu, Hanxi Yang, Yunfei Xu, Boliang He, Zipei Zhu, Linying Mi, Shanshan Li, B. Y. Yu, Changhua Li, and Jun Han

Subjects
Speedup, 010504 meteorology & atmospheric sciences, Computer science, business.industry, Event (computing), Gravitational wave, Real-time computing, FOS: Physical sciences, Astronomy and Astrophysics, Virtual observatory, 01 natural sciences, Gravitational-wave astronomy, Visualization, Data visualization, Data retrieval, Space and Planetary Science, 0103 physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, business, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics, 0105 earth and related environmental sciences
Abstract

The search and follow-up observation of electromagnetic (EM) counterparts of gravitational waves (GW) is a current hot topic of GW cosmology. Due to the limitation of the accuracy of the GW observation facility at this stage, we can only get a rough sky-localization region for the GW event, and the typical area of the region is between 200 and 1500 square degrees. Since GW events occur in or near galaxies, limiting the observation target to galaxies can significantly speedup searching for EM counterparts. Therefore, how to efficiently select host galaxy candidates in such a large GW localization region, how to arrange the observation sequence, and how to efficiently identify the GW source from observational data are the problems that need to be solved. International Virtual Observatory Alliance has developed a series of technical standards for data retrieval, interoperability and visualization. Based on the application of VO technologies, we construct the GW follow-up Observation Planning System (GWOPS). It consists of three parts: a pipeline to select host candidates of GW and sort their priorities for follow-up observation, an identification module to find the transient from follow-up observation data, and a visualization module to display GW-related data. GWOPS can rapidly respond to GW events. With GWOPS, the operations such as follow-up observation planning, data storage, data visualization, and transient identification can be efficiently coordinated, which will promote the success searching rate for GWs EM counterparts., Comment: 12 pages, 8 figures, published by Publications of the Astronomical Society of the Pacific

Published
2020

2. Seeing measurements for the Guoshoujing Telescope (LAMOST) site with DIMM

Author

Boliang He, Li-Yong Liu, Yongqiang Yao, Hongshuai Wang, Jiang-Long Ma, and Yiping Wang

Subjects
Physics, media_common.quotation_subject, Astronomy and Astrophysics, DIMM, law.invention, LAMOST, Telescope, Polaris, Space and Planetary Science, law, Sky, Image motion, media_common, Remote sensing
Abstract

We present seeing measurements of the Guoshoujing Telescope (formerly named the Large Sky Area Multi-Object Fiber Spectroscopic Telescope- LAMOST) site at Xinglong station during the period from 2007 March 12 to April 25. The mea- surements were carried out with the Differential Image Motion Monitor (DIMM), and a total of 9259 data sets was obtained. The median seeing was measured to be 1.1 '' , with 25% being better than 0.8 '' and 75% better than 1.5 '' . The experiment shows that the DIMM exposure time has significant effects on the res ults of seeing mea- surements. An SBIG Polaris seeing monitor, which had been planned to be installed on the LAMOST site for long-term monitoring, was also employed during the DIMM observations. The results show that the SBIG seeing monitor is easily affected by gusty wind, resulting in larger seeing values. Considering the pr evious seeing measurements at Xinglong station over the last 15 yr, we conclude that an acceptable seeing condition at Xinglong station is around 1 '' -2 '' .

Published
2010

7. Project Overview of the Beijing–Arizona Sky Survey.

Author

Hu Zou, Xu Zhou, Xiaohui Fan, Tianmeng Zhang, Zhimin Zhou, Jundan Nie, Xiyan Peng, Ian McGreer, Linhua Jiang, Arjun Dey, Dongwei Fan, Boliang He, Zhaoji Jiang, Dustin Lang, Michael Lesser, Jun Ma, Shude Mao, David Schlegel, and Jiali Wang

Subjects
ASTRONOMICAL photometry, DARK energy
Abstract

The Beijing–Arizona Sky Survey (BASS) is a wide-field two-band photometric survey of the northern Galactic Cap using the 90Prime imager on the 2.3 m Bok telescope at Kitt Peak. It is a four-year collaboration between the National Astronomical Observatory of China and Steward Observatory, the University of Arizona, serving as one of the three imaging surveys to provide photometric input catalogs for target selection of the Dark Energy Spectroscopic Instrument (DESI) project. BASS will take up to 240 dark/gray nights to cover an area of about 5400 deg2 in the g and r bands. The 5σ limiting AB magnitudes for point sources in the two bands, corrected for the Galactic extinction, are 24.0 and 23.4 mag, respectively. BASS, together with other DESI imaging surveys, will provide unique science opportunities that cover a wide range of topics in both Galactic and extragalactic astronomy. [ABSTRACT FROM AUTHOR]

Published
2017
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