http://arxiv.org/abs/2203.14468
Following up large numbers of candidates in continuous gravitational wave searches presents a challenge, particularly in regard to computational power and the time required to manually scrutinize each of the candidates. It is important to design and test good follow-up procedures that are safe (i.e., minimize false dismissals) and computationally efficient across many search configurations. We investigate two existing follow-up procedures, or “vetoes,” both of which exploit the Doppler modulation predicted in astrophysical signals. We take advantage of a well-established semicoherent search algorithm based on a hidden Markov model to study a wide variety of search configurations and to generalize the veto criteria by considering the overall veto performance in terms of efficiency and safety. The results can serve as a guideline for follow-up studies in future continuous gravitational wave searches using a hidden Markov model algorithm. The results also apply qualitatively to other semicoherent search algorithms.
D. Jones, L. Sun, J. Carlin, et. al.
Tue, 29 Mar 22
27/73
Comments: 20 pages, 11 figures
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