SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2154303728> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W2154303728 abstract "In models with gravitino as the lightest supersymmetric particle (LSP), the next-to-lightest supersymmetric particle (NLSP) can have a long lifetime and appear stable in collider experiments. We study the leptonic signatures of such a scenario with tau sneutrino as the NLSP, which is realized in the non-universal Higgs masses (NUHM) scenario. We focus on an interesting trilepton signature with two like-sign taus and an electron or a muon of the opposite sign. The neutralinos and charginos are quite heavy in the model considered, and the trilepton signal comes mostly from the slepton-sneutrino production. We identify the relevant backgrounds, taking into account tau decays, and devise a set of cuts to optimize this trilepton signal. We simulate signal and backgrounds at the Large Hadron Collider (LHC) with 14 TeV center-of-mass energy. Although the sleptons in this model are relatively light, $mathcal{O}(100text{ }text{ }mathrm{GeV})$, discovery is more demanding compared to typical neutralino LSP scenarios. The trilepton signal requires a large amount of accumulated data, at least $ensuremath{sim}80text{ }text{ }{mathrm{fb}}^{ensuremath{-}1}$, at the center-of-mass (c.m.) energy of 14 TeV." @default.
W2154303728 created "2016-06-24" @default.
W2154303728 creator A5039729506 @default.
W2154303728 creator A5057307886 @default.
W2154303728 creator A5061947643 @default.
W2154303728 date "2010-10-27" @default.
W2154303728 modified "2023-09-26" @default.
W2154303728 title "Tau-sneutrino next-to-lightest supersymmetric particle and multilepton signatures at the LHC" @default.
W2154303728 cites W1480800636 @default.
W2154303728 cites W1499316341 @default.
W2154303728 cites W1842575489 @default.
W2154303728 cites W1874650072 @default.
W2154303728 cites W1964042025 @default.
W2154303728 cites W1980573344 @default.
W2154303728 cites W1981890465 @default.
W2154303728 cites W1987052577 @default.
W2154303728 cites W1995175042 @default.
W2154303728 cites W2016801295 @default.
W2154303728 cites W2027573364 @default.
W2154303728 cites W2028959419 @default.
W2154303728 cites W2038105367 @default.
W2154303728 cites W2038186329 @default.
W2154303728 cites W2039507069 @default.
W2154303728 cites W2042869596 @default.
W2154303728 cites W2043476791 @default.
W2154303728 cites W2054702061 @default.
W2154303728 cites W2058983829 @default.
W2154303728 cites W2061036428 @default.
W2154303728 cites W2063948974 @default.
W2154303728 cites W2081030254 @default.
W2154303728 cites W2089297044 @default.
W2154303728 cites W2092026557 @default.
W2154303728 cites W2097393408 @default.
W2154303728 cites W2110456642 @default.
W2154303728 cites W2114987342 @default.
W2154303728 cites W2123376285 @default.
W2154303728 cites W2127669635 @default.
W2154303728 cites W2128801492 @default.
W2154303728 cites W2129764839 @default.
W2154303728 cites W2130455390 @default.
W2154303728 cites W2130862055 @default.
W2154303728 cites W2134734204 @default.
W2154303728 cites W2136293205 @default.
W2154303728 cites W2141095526 @default.
W2154303728 cites W2145607692 @default.
W2154303728 cites W2148219442 @default.
W2154303728 cites W2152046391 @default.
W2154303728 cites W2155113454 @default.
W2154303728 cites W2162273898 @default.
W2154303728 cites W2168442976 @default.
W2154303728 cites W2212901559 @default.
W2154303728 cites W2331049942 @default.
W2154303728 cites W2614392743 @default.
W2154303728 cites W3098569141 @default.
W2154303728 cites W3098735431 @default.
W2154303728 cites W3101923144 @default.
W2154303728 cites W3105528735 @default.
W2154303728 cites W3106405674 @default.
W2154303728 cites W3121350451 @default.
W2154303728 cites W3121614399 @default.
W2154303728 cites W3141607106 @default.
W2154303728 doi "https://doi.org/10.1103/physrevd.82.075016" @default.
W2154303728 hasPublicationYear "2010" @default.
W2154303728 type Work @default.
W2154303728 sameAs 2154303728 @default.
W2154303728 citedByCount "6" @default.
W2154303728 countsByYear W21543037282013 @default.
W2154303728 countsByYear W21543037282014 @default.
W2154303728 countsByYear W21543037282015 @default.
W2154303728 countsByYear W21543037282021 @default.
W2154303728 countsByYear W21543037282023 @default.
W2154303728 crossrefType "journal-article" @default.
W2154303728 hasAuthorship W2154303728A5039729506 @default.
W2154303728 hasAuthorship W2154303728A5057307886 @default.
W2154303728 hasAuthorship W2154303728A5061947643 @default.
W2154303728 hasBestOaLocation W21543037282 @default.
W2154303728 hasConcept C109214941 @default.
W2154303728 hasConcept C112244425 @default.
W2154303728 hasConcept C116674579 @default.
W2154303728 hasConcept C121332964 @default.
W2154303728 hasConcept C152290109 @default.
W2154303728 hasConcept C152375962 @default.
W2154303728 hasConcept C158129726 @default.
W2154303728 hasConcept C185544564 @default.
W2154303728 hasConcept C21265024 @default.
W2154303728 hasConcept C2778144533 @default.
W2154303728 hasConcept C57782585 @default.
W2154303728 hasConcept C78710322 @default.
W2154303728 hasConcept C87668248 @default.
W2154303728 hasConceptScore W2154303728C109214941 @default.
W2154303728 hasConceptScore W2154303728C112244425 @default.
W2154303728 hasConceptScore W2154303728C116674579 @default.
W2154303728 hasConceptScore W2154303728C121332964 @default.
W2154303728 hasConceptScore W2154303728C152290109 @default.
W2154303728 hasConceptScore W2154303728C152375962 @default.
W2154303728 hasConceptScore W2154303728C158129726 @default.
W2154303728 hasConceptScore W2154303728C185544564 @default.
W2154303728 hasConceptScore W2154303728C21265024 @default.
W2154303728 hasConceptScore W2154303728C2778144533 @default.
W2154303728 hasConceptScore W2154303728C57782585 @default.