Abstract
We report results of a deep all-sky search for periodic gravitational waves from isolated neutron stars in data from the first Advanced LIGO observing run. This search investigates the low frequency range of Advanced LIGO data, between 20 and 100 Hz, much of which was not explored in initial LIGO. The search was made possible by the computing power provided by the volunteers of the Einstein@Home project. We find no significant signal candidate and set the most stringent upper limits to date on the amplitude of gravitational wave signals from the target population, corresponding to a sensitivity depth of 48.7 [1/$\sqrt{{\textrm{Hz}}}$]. At the frequency of best strain sensitivity, near 100 Hz, we set 90% confidence upper limits of $1.8 \times 10^{-25}$. At the low end of our frequency range, 20 Hz, we achieve upper limits of $3.9 \times 10^{-24}$. At 55 Hz we can exclude sources with ellipticities greater than $10^{-5}$ within 100 pc of Earth with fiducial value of the principal moment of inertia of $10^{38} \textrm{kg m}^2$.
Highlights
In this paper we report the results of a deep all-sky Einstein@Home [1] search for continuous, nearly monochromatic gravitational waves (GWs) in data from the first Advanced LIGO observing run (O1)
A number of all-sky searches have been carried out on initial LIGO data, [2,3,4,5,6,7,8,9,10,11,12,13,14,15], of which [2,3,7,9,14] ran on Einstein@Home
The search described in this paper targets nearly monochromatic gravitational wave signals as described for example by Eqs. (1)–(4) of [9]
Summary
In this paper we report the results of a deep all-sky Einstein@Home [1] search for continuous, nearly monochromatic gravitational waves (GWs) in data from the first Advanced LIGO observing run (O1). By focusing the available computing power on a subset of the detector frequency range, this search achieves higher sensitivity at these low frequencies than would be possible in a search over the full range of LIGO frequencies. In this low-frequency range we establish the most constraining gravitational wave amplitude upper limits to date for the target signal population
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