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Abstract
The first observing run of Advanced LIGO spanned 4 months, from 12
September 2015 to 19 January 2016, during which gravitational waves were
directly detected from two binary black hole systems, namely GW150914
and GW151226. Confident detection of gravitational waves requires an
understanding of instrumental transients and artifacts that can reduce
the sensitivity of a search. Studies of the quality of the detector data
yield insights into the cause of instrumental artifacts and data
quality vetoes specific to a search are produced to mitigate the effects
of problematic data. In this paper, the systematic removal of noisy
data from analysis time is shown to improve the sensitivity of searches
for compact binary coalescences. The output of the PyCBC pipeline, which
is a python-based code package used to search for gravitational wave
signals from compact binary coalescences, is used as a metric for
improvement. GW150914 was a loud enough signal that removing noisy data
did not improve its significance. However, the removal of data with
excess noise decreased the false alarm rate of GW151226 by more than two
orders of magnitude, from 1 in 770 yr to less than 1 in 186 000 yr.
Original language | English |
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Article number | 065010 |
Number of pages | 26 |
Journal | Classical and Quantum Gravity |
Volume | 35 |
Issue number | 6 |
DOIs | |
Publication status | Published - 14 Feb 2018 |
Keywords
- LIGO
- binary coalescence
- detector characterization
- compact binary coalescences
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Dive into the research topics of 'Effects of data quality vetoes on a search for compact binary coalescences in Advanced LIGO's first observing run'. Together they form a unique fingerprint.Projects
- 1 Finished
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Investigations in Gravitational Radiation
Lockerbie, N. (Principal Investigator)
STFC Science and Technology Facilities Council
1/10/13 → 30/09/17
Project: Research