SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2003227744> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W2003227744 abstract "We perform a detailed study of a specific Two Higgs Doublet Model (2HDM) with a U(1) gauge symmetry, instead of a typical Z2 discrete symmetry, containing a very light gauge boson Z' (GeV scale or below). The Standard Model (SM) fermions do not carry U(1) charges, but induced couplings to the Z' (called the dark Z) are generated through mixing with the SM neutral gauge bosons. Such a light Z' could explain some astrophysical anomalies as well as the muon g-2 deviation, and has been the subject of great experimental interest. We consider the scenario in which the 125 GeV SM-like Higgs (H) is the heavier scalar state, and focus on the lighter neutral state (h) as well as charged Higgs. We analyze the constraints on the model from various experiments and predict novel channels to search for these Higgs scalars at the LHC. In particular, experiments looking for lepton-jets are among potentially important searches." @default.
W2003227744 created "2016-06-24" @default.
W2003227744 creator A5035627624 @default.
W2003227744 creator A5057257100 @default.
W2003227744 date "2013-06-10" @default.
W2003227744 modified "2023-09-25" @default.
W2003227744 title "Dark two Higgs doublet model" @default.
W2003227744 cites W1553232350 @default.
W2003227744 cites W1581228648 @default.
W2003227744 cites W1689327406 @default.
W2003227744 cites W1722136771 @default.
W2003227744 cites W181849631 @default.
W2003227744 cites W1820909602 @default.
W2003227744 cites W1858542512 @default.
W2003227744 cites W1963854532 @default.
W2003227744 cites W1966905614 @default.
W2003227744 cites W1983339834 @default.
W2003227744 cites W1993522236 @default.
W2003227744 cites W1998987044 @default.
W2003227744 cites W2000259112 @default.
W2003227744 cites W2008031761 @default.
W2003227744 cites W2020885902 @default.
W2003227744 cites W2026977613 @default.
W2003227744 cites W2033234166 @default.
W2003227744 cites W2049167588 @default.
W2003227744 cites W2049445654 @default.
W2003227744 cites W2051384403 @default.
W2003227744 cites W2055235762 @default.
W2003227744 cites W2059452078 @default.
W2003227744 cites W2060978973 @default.
W2003227744 cites W2063246391 @default.
W2003227744 cites W2068962470 @default.
W2003227744 cites W2068995455 @default.
W2003227744 cites W2076304538 @default.
W2003227744 cites W2080005597 @default.
W2003227744 cites W2082221414 @default.
W2003227744 cites W2090164499 @default.
W2003227744 cites W2090471858 @default.
W2003227744 cites W2094027398 @default.
W2003227744 cites W2097227094 @default.
W2003227744 cites W2098710805 @default.
W2003227744 cites W2099875176 @default.
W2003227744 cites W2100678356 @default.
W2003227744 cites W2110818866 @default.
W2003227744 cites W2116109970 @default.
W2003227744 cites W2118726506 @default.
W2003227744 cites W2122765019 @default.
W2003227744 cites W2124075924 @default.
W2003227744 cites W2131883893 @default.
W2003227744 cites W2137233627 @default.
W2003227744 cites W2141866066 @default.
W2003227744 cites W2142321540 @default.
W2003227744 cites W2146865462 @default.
W2003227744 cites W2151946107 @default.
W2003227744 cites W2153953405 @default.
W2003227744 cites W2164237661 @default.
W2003227744 cites W2166284120 @default.
W2003227744 cites W2167727518 @default.
W2003227744 cites W2171592884 @default.
W2003227744 cites W2173403199 @default.
W2003227744 cites W2179111181 @default.
W2003227744 cites W2188479714 @default.
W2003227744 cites W2332016079 @default.
W2003227744 cites W2950143681 @default.
W2003227744 cites W3101656561 @default.
W2003227744 cites W3101661011 @default.
W2003227744 cites W3104554728 @default.
W2003227744 cites W4291128473 @default.
W2003227744 doi "https://doi.org/10.1103/physrevd.87.115009" @default.
W2003227744 hasPublicationYear "2013" @default.
W2003227744 type Work @default.
W2003227744 sameAs 2003227744 @default.
W2003227744 citedByCount "26" @default.
W2003227744 countsByYear W20032277442013 @default.
W2003227744 countsByYear W20032277442014 @default.
W2003227744 countsByYear W20032277442015 @default.
W2003227744 countsByYear W20032277442016 @default.
W2003227744 countsByYear W20032277442017 @default.
W2003227744 countsByYear W20032277442018 @default.
W2003227744 countsByYear W20032277442019 @default.
W2003227744 countsByYear W20032277442020 @default.
W2003227744 countsByYear W20032277442021 @default.
W2003227744 countsByYear W20032277442022 @default.
W2003227744 countsByYear W20032277442023 @default.
W2003227744 crossrefType "journal-article" @default.
W2003227744 hasAuthorship W2003227744A5035627624 @default.
W2003227744 hasAuthorship W2003227744A5057257100 @default.
W2003227744 hasBestOaLocation W20032277441 @default.
W2003227744 hasConcept C101454708 @default.
W2003227744 hasConcept C109214941 @default.
W2003227744 hasConcept C121332964 @default.
W2003227744 hasConcept C147120987 @default.
W2003227744 hasConcept C147247565 @default.
W2003227744 hasConcept C158129726 @default.
W2003227744 hasConcept C166957645 @default.
W2003227744 hasConcept C179203047 @default.
W2003227744 hasConcept C179885171 @default.
W2003227744 hasConcept C181830111 @default.
W2003227744 hasConcept C184748400 @default.
W2003227744 hasConcept C185544564 @default.