SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2164964706> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W2164964706 abstract "Beginning with a set of simplified models for spin-0, spin-$frac{1}{2}$, and spin-1 dark matter candidates, we derive the full set of nonrelativistic operators and nuclear matrix elements relevant for direct detection of dark matter and use these to calculate rates and recoil spectra for scattering on various target nuclei. This allows us to explore what high energy physics constraints might be obtainable from direct detection experiments, what degeneracies exist, which operators are ubiquitous, and which are unlikely or subdominant. We find that there are operators which are common to all spins as well operators which are unique to spin-$frac{1}{2}$ and spin-1 and elucidate two new operators which have not been previously considered. In addition we demonstrate how recoil energy spectra can distinguish fundamental microphysics if multiple target nuclei are used. Our work provides a complete road map for taking generic fundamental dark matter theories and calculating rates in direct detection experiments. This provides a useful guide for experimentalists designing experiments and theorists developing new dark matter models." @default.
W2164964706 created "2016-06-24" @default.
W2164964706 creator A5025880144 @default.
W2164964706 creator A5041288684 @default.
W2164964706 creator A5049472969 @default.
W2164964706 creator A5077401054 @default.
W2164964706 date "2015-09-14" @default.
W2164964706 modified "2023-10-17" @default.
W2164964706 title "General analysis of direct dark matter detection: From microphysics to observational signatures" @default.
W2164964706 cites W1489410376 @default.
W2164964706 cites W1507357440 @default.
W2164964706 cites W1539212645 @default.
W2164964706 cites W1614048525 @default.
W2164964706 cites W1677429399 @default.
W2164964706 cites W1891457057 @default.
W2164964706 cites W1927804868 @default.
W2164964706 cites W1975948641 @default.
W2164964706 cites W1981818237 @default.
W2164964706 cites W1990760880 @default.
W2164964706 cites W1992237963 @default.
W2164964706 cites W1994734401 @default.
W2164964706 cites W1998330435 @default.
W2164964706 cites W1999631403 @default.
W2164964706 cites W2010716622 @default.
W2164964706 cites W2014075092 @default.
W2164964706 cites W2031831197 @default.
W2164964706 cites W2034462403 @default.
W2164964706 cites W2036330674 @default.
W2164964706 cites W2037239953 @default.
W2164964706 cites W2042260934 @default.
W2164964706 cites W2046736211 @default.
W2164964706 cites W2049955338 @default.
W2164964706 cites W2054431780 @default.
W2164964706 cites W2069627216 @default.
W2164964706 cites W2070723855 @default.
W2164964706 cites W2072312610 @default.
W2164964706 cites W2079578954 @default.
W2164964706 cites W2080941305 @default.
W2164964706 cites W2086077579 @default.
W2164964706 cites W2097820102 @default.
W2164964706 cites W2098422406 @default.
W2164964706 cites W2098710805 @default.
W2164964706 cites W2099011717 @default.
W2164964706 cites W2103336816 @default.
W2164964706 cites W2108461196 @default.
W2164964706 cites W2108503425 @default.
W2164964706 cites W2109115208 @default.
W2164964706 cites W2112456186 @default.
W2164964706 cites W2115309022 @default.
W2164964706 cites W2121951791 @default.
W2164964706 cites W2126419867 @default.
W2164964706 cites W2126918399 @default.
W2164964706 cites W2129101324 @default.
W2164964706 cites W2133224752 @default.
W2164964706 cites W2133381476 @default.
W2164964706 cites W2137827547 @default.
W2164964706 cites W2139937287 @default.
W2164964706 cites W2143513913 @default.
W2164964706 cites W2143570837 @default.
W2164964706 cites W2149577393 @default.
W2164964706 cites W2160379935 @default.
W2164964706 cites W2169190171 @default.
W2164964706 cites W2223525360 @default.
W2164964706 cites W2593430608 @default.
W2164964706 cites W2610726194 @default.
W2164964706 cites W2612066657 @default.
W2164964706 cites W3098086029 @default.
W2164964706 cites W3098310674 @default.
W2164964706 cites W3099501946 @default.
W2164964706 cites W3099950080 @default.
W2164964706 cites W3100671495 @default.
W2164964706 cites W3101513967 @default.
W2164964706 cites W3104384388 @default.
W2164964706 cites W3104412157 @default.
W2164964706 cites W3105451347 @default.
W2164964706 cites W3105595725 @default.
W2164964706 cites W3121195376 @default.
W2164964706 cites W4237064514 @default.
W2164964706 doi "https://doi.org/10.1103/physrevd.92.063515" @default.
W2164964706 hasPublicationYear "2015" @default.
W2164964706 type Work @default.
W2164964706 sameAs 2164964706 @default.
W2164964706 citedByCount "64" @default.
W2164964706 countsByYear W21649647062016 @default.
W2164964706 countsByYear W21649647062017 @default.
W2164964706 countsByYear W21649647062018 @default.
W2164964706 countsByYear W21649647062019 @default.
W2164964706 countsByYear W21649647062020 @default.
W2164964706 countsByYear W21649647062021 @default.
W2164964706 countsByYear W21649647062022 @default.
W2164964706 countsByYear W21649647062023 @default.
W2164964706 crossrefType "journal-article" @default.
W2164964706 hasAuthorship W2164964706A5025880144 @default.
W2164964706 hasAuthorship W2164964706A5041288684 @default.
W2164964706 hasAuthorship W2164964706A5049472969 @default.
W2164964706 hasAuthorship W2164964706A5077401054 @default.
W2164964706 hasBestOaLocation W21649647061 @default.
W2164964706 hasConcept C109214941 @default.
W2164964706 hasConcept C121332964 @default.
W2164964706 hasConcept C159249277 @default.