SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2269630338> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2269630338 abstract "Helical hypermagnetic fields in the primordial Universe can produce the observed amount of baryon asymmetry through the chiral anomaly without any ingredients beyond the standard model of particle physics. While they generate no $Bensuremath{-}L$ asymmetry, the generated baryon asymmetry survives the spharelon washout effect, because the generating process remains active until the electroweak phase transition. Solving the Boltzmann equation numerically and finding an attractor solution, we show that the baryon asymmetry of our Universe can be explained, if the present large-scale magnetic fields indicated by the blazar observations have a negative helicity and existed in the early Universe before the electroweak phase transition. We also derive the upper bound on the strength of the helical magnetic field, which is tighter than the cosmic microwave background constraint, to avoid the overproduction of baryon asymmetry." @default.
W2269630338 created "2016-06-24" @default.
W2269630338 creator A5000161232 @default.
W2269630338 creator A5075633645 @default.
W2269630338 date "2016-04-19" @default.
W2269630338 modified "2023-10-15" @default.
W2269630338 title "Large-scale magnetic fields can explain the baryon asymmetry of the Universe" @default.
W2269630338 cites W1753938757 @default.
W2269630338 cites W1835118247 @default.
W2269630338 cites W1904282058 @default.
W2269630338 cites W1908731306 @default.
W2269630338 cites W1940087262 @default.
W2269630338 cites W1963752137 @default.
W2269630338 cites W1979921112 @default.
W2269630338 cites W1988718382 @default.
W2269630338 cites W1992162437 @default.
W2269630338 cites W1993113729 @default.
W2269630338 cites W1995175048 @default.
W2269630338 cites W1997985887 @default.
W2269630338 cites W2002697038 @default.
W2269630338 cites W2007414583 @default.
W2269630338 cites W2023205381 @default.
W2269630338 cites W2024537525 @default.
W2269630338 cites W2024779586 @default.
W2269630338 cites W2025917230 @default.
W2269630338 cites W2030729573 @default.
W2269630338 cites W2033045151 @default.
W2269630338 cites W2039159891 @default.
W2269630338 cites W2040892367 @default.
W2269630338 cites W2041339371 @default.
W2269630338 cites W2042207623 @default.
W2269630338 cites W2046059652 @default.
W2269630338 cites W2051314207 @default.
W2269630338 cites W2051548204 @default.
W2269630338 cites W2055187594 @default.
W2269630338 cites W2063092340 @default.
W2269630338 cites W2067223568 @default.
W2269630338 cites W2068939329 @default.
W2269630338 cites W2072020395 @default.
W2269630338 cites W2075068037 @default.
W2269630338 cites W2084173650 @default.
W2269630338 cites W2086512926 @default.
W2269630338 cites W2087848270 @default.
W2269630338 cites W2090677236 @default.
W2269630338 cites W2091987796 @default.
W2269630338 cites W2092564378 @default.
W2269630338 cites W2092971669 @default.
W2269630338 cites W2106681632 @default.
W2269630338 cites W2120335479 @default.
W2269630338 cites W2124705870 @default.
W2269630338 cites W2126596242 @default.
W2269630338 cites W2132062610 @default.
W2269630338 cites W2133019321 @default.
W2269630338 cites W2136641117 @default.
W2269630338 cites W2141177597 @default.
W2269630338 cites W2144049374 @default.
W2269630338 cites W2148494361 @default.
W2269630338 cites W2155070207 @default.
W2269630338 cites W2160415271 @default.
W2269630338 cites W2163060129 @default.
W2269630338 cites W2314998779 @default.
W2269630338 cites W2333492895 @default.
W2269630338 cites W2595129576 @default.
W2269630338 cites W2981313176 @default.
W2269630338 cites W3038054510 @default.
W2269630338 cites W3098996373 @default.
W2269630338 cites W3099303115 @default.
W2269630338 cites W3099940584 @default.
W2269630338 cites W3102722988 @default.
W2269630338 cites W3102772221 @default.
W2269630338 cites W3103007360 @default.
W2269630338 cites W3103474415 @default.
W2269630338 cites W3106161307 @default.
W2269630338 cites W3106311677 @default.
W2269630338 cites W3106432373 @default.
W2269630338 cites W4240654682 @default.
W2269630338 doi "https://doi.org/10.1103/physrevd.93.083520" @default.
W2269630338 hasPublicationYear "2016" @default.
W2269630338 type Work @default.
W2269630338 sameAs 2269630338 @default.
W2269630338 citedByCount "76" @default.
W2269630338 countsByYear W22696303382016 @default.
W2269630338 countsByYear W22696303382017 @default.
W2269630338 countsByYear W22696303382018 @default.
W2269630338 countsByYear W22696303382019 @default.
W2269630338 countsByYear W22696303382020 @default.
W2269630338 countsByYear W22696303382021 @default.
W2269630338 countsByYear W22696303382022 @default.
W2269630338 countsByYear W22696303382023 @default.
W2269630338 crossrefType "journal-article" @default.
W2269630338 hasAuthorship W2269630338A5000161232 @default.
W2269630338 hasAuthorship W2269630338A5075633645 @default.
W2269630338 hasBestOaLocation W22696303381 @default.
W2269630338 hasConcept C109214941 @default.
W2269630338 hasConcept C121332964 @default.
W2269630338 hasConcept C147120987 @default.
W2269630338 hasConcept C154153549 @default.
W2269630338 hasConcept C174045041 @default.
W2269630338 hasConcept C17863212 @default.
W2269630338 hasConcept C179203047 @default.