SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896743299> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W2896743299 abstract "Vector bosons heavier than ${10}^{ensuremath{-}22}text{ }text{ }mathrm{eV}$ can be viable dark matter candidates with distinctive experimental signatures. Ultralight dark matter generally requires a nonthermal origin to achieve the observed density, while still behaving like a pressureless fluid at late times. We show that such a production mechanism naturally occurs for vectors whose mass originates from a dark Higgs. If the dark Higgs has a large field value after inflation, the energy in the Higgs field can be efficiently transferred to vectors through parametric resonance. Computing the resulting abundance and spectra requires careful treatment of the transverse and longitudinal components, whose dynamics are governed by distinct equations of motion. We study these in detail and find that the mass of the vector may be as low as ${10}^{ensuremath{-}18}text{ }text{ }mathrm{eV}$, while making up the majority of the dark matter abundance. This opens up a wide mass range of vector dark matter as cosmologically viable, and further motivates the experimental searches for such particles." @default.
W2896743299 created "2018-10-26" @default.
W2896743299 creator A5019137857 @default.
W2896743299 creator A5073698812 @default.
W2896743299 creator A5090933994 @default.
W2896743299 date "2019-02-26" @default.
W2896743299 modified "2023-10-16" @default.
W2896743299 title "Parametric resonance production of ultralight vector dark matter" @default.
W2896743299 cites W1496325958 @default.
W2896743299 cites W1865988651 @default.
W2896743299 cites W1880865372 @default.
W2896743299 cites W1895428945 @default.
W2896743299 cites W1921254765 @default.
W2896743299 cites W1926075317 @default.
W2896743299 cites W1983181752 @default.
W2896743299 cites W1997474154 @default.
W2896743299 cites W2005216527 @default.
W2896743299 cites W2007443706 @default.
W2896743299 cites W2007746935 @default.
W2896743299 cites W2019131193 @default.
W2896743299 cites W2022463172 @default.
W2896743299 cites W2024961600 @default.
W2896743299 cites W2040460574 @default.
W2896743299 cites W2044117497 @default.
W2896743299 cites W2058523409 @default.
W2896743299 cites W2064222190 @default.
W2896743299 cites W2072627764 @default.
W2896743299 cites W2074997845 @default.
W2896743299 cites W2076655426 @default.
W2896743299 cites W2112197499 @default.
W2896743299 cites W2113752551 @default.
W2896743299 cites W2148377662 @default.
W2896743299 cites W2152147800 @default.
W2896743299 cites W2158442860 @default.
W2896743299 cites W2165090377 @default.
W2896743299 cites W2167769138 @default.
W2896743299 cites W2201906000 @default.
W2896743299 cites W2214309579 @default.
W2896743299 cites W2224114398 @default.
W2896743299 cites W2413031017 @default.
W2896743299 cites W2468220929 @default.
W2896743299 cites W2563776882 @default.
W2896743299 cites W2583054479 @default.
W2896743299 cites W2592699733 @default.
W2896743299 cites W2594055979 @default.
W2896743299 cites W2616559938 @default.
W2896743299 cites W2728124877 @default.
W2896743299 cites W2750295863 @default.
W2896743299 cites W2751030449 @default.
W2896743299 cites W2751976381 @default.
W2896743299 cites W2753283194 @default.
W2896743299 cites W2753581779 @default.
W2896743299 cites W2767681162 @default.
W2896743299 cites W2770551954 @default.
W2896743299 cites W2772139609 @default.
W2896743299 cites W2780166815 @default.
W2896743299 cites W2787755087 @default.
W2896743299 cites W2794548735 @default.
W2896743299 cites W2807897022 @default.
W2896743299 cites W2883658073 @default.
W2896743299 cites W2897837406 @default.
W2896743299 cites W3037084626 @default.
W2896743299 cites W3038076880 @default.
W2896743299 cites W3099979123 @default.
W2896743299 cites W3100675786 @default.
W2896743299 cites W3100787568 @default.
W2896743299 cites W3100857226 @default.
W2896743299 cites W3101077460 @default.
W2896743299 cites W3104504178 @default.
W2896743299 cites W3105307970 @default.
W2896743299 cites W3105864070 @default.
W2896743299 cites W3106274702 @default.
W2896743299 cites W4292875581 @default.
W2896743299 cites W4292993631 @default.
W2896743299 doi "https://doi.org/10.1103/physrevd.99.035036" @default.
W2896743299 hasPublicationYear "2019" @default.
W2896743299 type Work @default.
W2896743299 sameAs 2896743299 @default.
W2896743299 citedByCount "110" @default.
W2896743299 countsByYear W28967432992019 @default.
W2896743299 countsByYear W28967432992020 @default.
W2896743299 countsByYear W28967432992021 @default.
W2896743299 countsByYear W28967432992022 @default.
W2896743299 countsByYear W28967432992023 @default.
W2896743299 crossrefType "journal-article" @default.
W2896743299 hasAuthorship W2896743299A5019137857 @default.
W2896743299 hasAuthorship W2896743299A5073698812 @default.
W2896743299 hasAuthorship W2896743299A5090933994 @default.
W2896743299 hasBestOaLocation W28967432991 @default.
W2896743299 hasConcept C109214941 @default.
W2896743299 hasConcept C121332964 @default.
W2896743299 hasConcept C139719470 @default.
W2896743299 hasConcept C155700901 @default.
W2896743299 hasConcept C158129726 @default.
W2896743299 hasConcept C159249277 @default.
W2896743299 hasConcept C162324750 @default.
W2896743299 hasConcept C172790937 @default.
W2896743299 hasConcept C26405456 @default.
W2896743299 hasConcept C26495451 @default.
W2896743299 hasConcept C2778348673 @default.