Constraints on r-modes and Mountains on Millisecond Neutron Stars in Binary Systems

Covas, P. B.; Papa, M. A.; Prix, R.; Owen, B. J.

doi:10.3847/2041-8213/ac62d7

Cited by 26 publications

(7 citation statements)

References 63 publications

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“…All-sky binary searches are computationally extremely expensive and so are the follow-ups. A first test of Density Clustering on the results-data from [27] showed promising results within a few hours of clustering in 6 dimensions (f, α, δ, τ asc , P b , a), showcasing the flexibility and ease of use of the method presented here.…”

Section: Discussionmentioning

confidence: 86%

Density-clustering of continuous gravitational wave candidates from large surveys

Steltner¹,

Menne²,

Papa³

et al. 2022

Preprint

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Searches for continuous gravitational waves target nearly monochromatic gravitational wave emission from e.g. non-axysmmetric fast-spinning neutron stars. Broad surveys often require to explicitly search for a very large number of different waveforms, easily exceeding ∼ 10 17 templates. In such cases, for practical reasons, only the top, say ∼ 10 10 , results are saved and followed-up through a hierarchy of stages. Most of these candidates are not completely independent of neighbouring ones, but arise due to some common cause: a fluctuation, a signal or a disturbance. By judiciously clustering together candidates stemming from the same root cause, the subsequent follow-ups become more effective. A number of clustering algorithms have been employed in past searches based on iteratively finding symmetric and compact over-densities around candidates with high detection statistic values. The new clustering method presented in this paper is a significant improvement over previous methods: it is agnostic about the shape of the over-densities, is very efficient and it is effective: at a very high detection efficiency, it has a noise rejection of 99.99% , is capable of clustering two orders of magnitude more candidates than attainable before and, at fixed sensitivity it enables more than a factor of 30 faster follow-ups. We also demonstrate how to optimally choose the clustering parameters.

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Section: Discussionmentioning

confidence: 86%

Density-clustering of continuous gravitational wave candidates from large surveys

Steltner¹,

Menne²,

Papa³

et al. 2022

Preprint

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show abstract

“…While these upper limits may be impressive considering the sheer volume of the binary parameter space considered, they are nonetheless set in a region which is computationally cheaper to explore with implicit studies such as this one. In contrast, other recent searches (Covas & Sintes 2020;Abbott et al 2021b;Covas et al 2022) have explored binary parameter spaces (see Figure 4), where implicit searches are useless, leaving computationally expensive explicit searches as the only option. This impacts both the "breadth" and the sensitivity of those searches.…”

Section: Discussionmentioning

confidence: 99%

Opportunistic Search for Continuous Gravitational Waves from Compact Objects in Long-period Binaries

Singh

Papa

2023

ApJ

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Most all-sky searches for continuous gravitational waves assume the source to be isolated. In this paper, we allow for an unknown companion object in a long-period orbit and opportunistically use previous results from an all-sky search for isolated sources to constrain the continuous gravitational-wave amplitude over a large and unexplored range of binary orbital parameters without explicitly performing a dedicated search for binary systems. The resulting limits are significantly more constraining than any existing upper limits for unknown binary systems, albeit the latter apply to different orbital parameter ranges that are computationally much costlier to explore.

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“…where for the present application (such as [1]) at most first-or second-order u k will be needed in practice, as discussed in Sec. III C 1.…”

Section: A Physical Phase Modelmentioning

confidence: 99%

“…The usage of a limited number of Taylor coordinates u k incurs an intrinsic mismatch due to the corresponding approximation of the signal waveform. In practice we currently envisage using only u 1 or at most up to order u 2 , which turns out to be sufficient for currently considered practical all-sky binary searches (similar to the recent search [1] using only u 1 ) due to computational constraints. Therefore we quantify the mismatch and corresponding constraints on the maximum coherent segment length T seg due to truncation to order u 1 or u 2 .…”

Section: Mismatch Due To Taylor-coordinate Truncationmentioning

confidence: 99%

“…The development of more sensitive all-sky binary search methods is of utmost importance since more than half of all known millisecond pulsars are part of a binary system 1 [20]. Furthermore, accretion from a companion gives a plausible mechanism to generate an asymmetry or excite an r-mode with a detectable amplitude in the current generation of gravitational-wave detectors, as recently discussed in [1]. This paper is organized as follows: in Sec.…”

Section: Introductionmentioning

confidence: 99%

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Improved all-sky search method for continuous gravitational waves from unknown neutron stars in binary systems

Covas¹,

Prix²

2022

Preprint

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Continuous gravitational waves from spinning deformed neutron stars have not been detected yet, and are one of the most promising signals for future detection. All-sky searches for continuous gravitational waves from unknown neutron stars in binary systems are the most computationally challenging search type. Consequently, very few search algorithms and implementations exist for these sources, and only a handful of such searches have been performed so far. In this paper, we present a new all-sky binary search method, BinarySkyHouF, which extends and improves upon the earlier BinarySkyHough method, and which was the basis for a recent search [Covas et al. [1]]. We compare the sensitivity and computational cost to previous methods, showing that it is both more sensitive and computationally efficient, which allows for broader and more sensitive searches.

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Constraints on r-modes and Mountains on Millisecond Neutron Stars in Binary Systems

Cited by 26 publications

References 63 publications

Density-clustering of continuous gravitational wave candidates from large surveys

Density-clustering of continuous gravitational wave candidates from large surveys

Opportunistic Search for Continuous Gravitational Waves from Compact Objects in Long-period Binaries

Improved all-sky search method for continuous gravitational waves from unknown neutron stars in binary systems

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