SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4304142898> ?p ?o ?g. }

Showing items 1 to 100 of ±110 with 100 items per page.

W4304142898 abstract "Most matter in the Universe is invisible and unknown, which is called dark matter. A candidate of dark matter is axion, which is an ultra-light particle motivated as a solution for the CP problem. Axions form clouds in a galactic halo, amplify, and delay a part of gravitational waves propagating in the clouds. The Milky Way is surrounded by the dark matter halo composed of a number of axion patches. Thus, the characteristic secondary gravitational waves are always expected right after the reported gravitational-wave signals from compact binary mergers. In this paper, we derive a realistic amplitude of the secondary gravitational waves. Then we search the gravitational waves having the characteristic time delay and duration with a method optimized for them. We find no significant signal. Assuming the axions are dominant component of dark matter, we obtain the constraints on the axion coupling to the parity violating sector of gravity for the mass range, [$1.7 times 10^{-13}, 8.5 times 10^{-12}$]$mathrm{eV}$, which is at most $sim 10$ times stronger than that from Gravity Probe B." @default.
W4304142898 created "2022-10-11" @default.
W4304142898 creator A5041527778 @default.
W4304142898 creator A5054367955 @default.
W4304142898 date "2022-10-10" @default.
W4304142898 modified "2023-10-16" @default.
W4304142898 title "Observational constraint on axion dark matter with gravitational waves" @default.
W4304142898 cites W1134494461 @default.
W4304142898 cites W1500878904 @default.
W4304142898 cites W1994627742 @default.
W4304142898 cites W1994870116 @default.
W4304142898 cites W1997474154 @default.
W4304142898 cites W1999741276 @default.
W4304142898 cites W2007746935 @default.
W4304142898 cites W2012291066 @default.
W4304142898 cites W2022463172 @default.
W4304142898 cites W2039730485 @default.
W4304142898 cites W2057899718 @default.
W4304142898 cites W2061044423 @default.
W4304142898 cites W2143270134 @default.
W4304142898 cites W2147753763 @default.
W4304142898 cites W2154010782 @default.
W4304142898 cites W2214545089 @default.
W4304142898 cites W2584906520 @default.
W4304142898 cites W2746257885 @default.
W4304142898 cites W2756512191 @default.
W4304142898 cites W2765081049 @default.
W4304142898 cites W2889580458 @default.
W4304142898 cites W3009594076 @default.
W4304142898 cites W3010264054 @default.
W4304142898 cites W3014286264 @default.
W4304142898 cites W3025538859 @default.
W4304142898 cites W3037348474 @default.
W4304142898 cites W3037896898 @default.
W4304142898 cites W3047312565 @default.
W4304142898 cites W3099074188 @default.
W4304142898 cites W3099514134 @default.
W4304142898 cites W3099551536 @default.
W4304142898 cites W3102676317 @default.
W4304142898 cites W3103049689 @default.
W4304142898 cites W3103877238 @default.
W4304142898 cites W3104042330 @default.
W4304142898 cites W3105808506 @default.
W4304142898 cites W3105998855 @default.
W4304142898 cites W3167053542 @default.
W4304142898 cites W3199116294 @default.
W4304142898 cites W4213166322 @default.
W4304142898 cites W4224318905 @default.
W4304142898 cites W4234856688 @default.
W4304142898 doi "https://doi.org/10.1103/physrevd.106.l081301" @default.
W4304142898 hasPublicationYear "2022" @default.
W4304142898 type Work @default.
W4304142898 citedByCount "3" @default.
W4304142898 countsByYear W43041428982023 @default.
W4304142898 crossrefType "journal-article" @default.
W4304142898 hasAuthorship W4304142898A5041527778 @default.
W4304142898 hasAuthorship W4304142898A5054367955 @default.
W4304142898 hasBestOaLocation W43041428982 @default.
W4304142898 hasConcept C109214941 @default.
W4304142898 hasConcept C113471709 @default.
W4304142898 hasConcept C121332964 @default.
W4304142898 hasConcept C159249277 @default.
W4304142898 hasConcept C172790937 @default.
W4304142898 hasConcept C184665706 @default.
W4304142898 hasConcept C190330329 @default.
W4304142898 hasConcept C26405456 @default.
W4304142898 hasConcept C26495451 @default.
W4304142898 hasConcept C29761201 @default.
W4304142898 hasConcept C44870925 @default.
W4304142898 hasConcept C57853336 @default.
W4304142898 hasConcept C66157390 @default.
W4304142898 hasConcept C88148261 @default.
W4304142898 hasConcept C98444146 @default.
W4304142898 hasConceptScore W4304142898C109214941 @default.
W4304142898 hasConceptScore W4304142898C113471709 @default.
W4304142898 hasConceptScore W4304142898C121332964 @default.
W4304142898 hasConceptScore W4304142898C159249277 @default.
W4304142898 hasConceptScore W4304142898C172790937 @default.
W4304142898 hasConceptScore W4304142898C184665706 @default.
W4304142898 hasConceptScore W4304142898C190330329 @default.
W4304142898 hasConceptScore W4304142898C26405456 @default.
W4304142898 hasConceptScore W4304142898C26495451 @default.
W4304142898 hasConceptScore W4304142898C29761201 @default.
W4304142898 hasConceptScore W4304142898C44870925 @default.
W4304142898 hasConceptScore W4304142898C57853336 @default.
W4304142898 hasConceptScore W4304142898C66157390 @default.
W4304142898 hasConceptScore W4304142898C88148261 @default.
W4304142898 hasConceptScore W4304142898C98444146 @default.
W4304142898 hasFunder F4320306076 @default.
W4304142898 hasFunder F4320322210 @default.
W4304142898 hasFunder F4320334764 @default.
W4304142898 hasIssue "8" @default.
W4304142898 hasLocation W43041428981 @default.
W4304142898 hasLocation W43041428982 @default.
W4304142898 hasOpenAccess W4304142898 @default.
W4304142898 hasPrimaryLocation W43041428981 @default.
W4304142898 hasRelatedWork W1630408106 @default.
W4304142898 hasRelatedWork W1972633475 @default.
W4304142898 hasRelatedWork W1977908833 @default.
W4304142898 hasRelatedWork W2019569420 @default.