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W4226321639 abstract "Dark matter or violations of the Einstein equivalence principle influence the motion of atoms, their internal states as well as electromagnetic fields, thus causing a signature in the signal of atomic detectors. To model such new physics, we introduce dilaton fields and study the modified propagation of light used to manipulate atoms in light-pulse atom interferometers. Their interference signal is dominated by the matter's coupling to gravity and the dilaton. Even though the electromagnetic field contributes to the phase, no additional dilaton-dependent effect can be observed. However, the light's propagation in gravity enters via a modified momentum transfer and its finite speed. For illustration, we discuss effects from light propagation and the dilaton on different atom-interferometric setups, including gradiometers, equivalence principle tests, and dark matter detection." @default.
W4226321639 created "2022-05-05" @default.
W4226321639 creator A5005947855 @default.
W4226321639 creator A5008736590 @default.
W4226321639 creator A5014075452 @default.
W4226321639 creator A5021575627 @default.
W4226321639 creator A5068236270 @default.
W4226321639 date "2022-04-29" @default.
W4226321639 modified "2023-10-16" @default.
W4226321639 title "Light propagation and atom interferometry in gravity and dilaton fields" @default.
W4226321639 cites W1487046996 @default.
W4226321639 cites W1542056664 @default.
W4226321639 cites W1563040068 @default.
W4226321639 cites W1779008532 @default.
W4226321639 cites W1782265257 @default.
W4226321639 cites W1905879479 @default.
W4226321639 cites W1963493990 @default.
W4226321639 cites W1964524512 @default.
W4226321639 cites W1966675562 @default.
W4226321639 cites W1967783723 @default.
W4226321639 cites W1975430715 @default.
W4226321639 cites W1977499976 @default.
W4226321639 cites W1977636917 @default.
W4226321639 cites W1979694556 @default.
W4226321639 cites W1982489262 @default.
W4226321639 cites W1990985723 @default.
W4226321639 cites W2002501841 @default.
W4226321639 cites W2009958141 @default.
W4226321639 cites W2015782900 @default.
W4226321639 cites W2042451507 @default.
W4226321639 cites W2046351224 @default.
W4226321639 cites W2048251016 @default.
W4226321639 cites W2054689017 @default.
W4226321639 cites W2073958075 @default.
W4226321639 cites W2077773456 @default.
W4226321639 cites W2087087184 @default.
W4226321639 cites W2093329327 @default.
W4226321639 cites W2094591364 @default.
W4226321639 cites W2113065370 @default.
W4226321639 cites W2127656708 @default.
W4226321639 cites W2141135760 @default.
W4226321639 cites W2147415154 @default.
W4226321639 cites W2154424188 @default.
W4226321639 cites W2166436681 @default.
W4226321639 cites W2172820095 @default.
W4226321639 cites W2267203060 @default.
W4226321639 cites W2332693901 @default.
W4226321639 cites W2363429021 @default.
W4226321639 cites W2411754741 @default.
W4226321639 cites W2420271177 @default.
W4226321639 cites W2498689733 @default.
W4226321639 cites W2570260132 @default.
W4226321639 cites W2747672148 @default.
W4226321639 cites W2780776248 @default.
W4226321639 cites W2807085189 @default.
W4226321639 cites W2807209353 @default.
W4226321639 cites W2825485648 @default.
W4226321639 cites W2903630052 @default.
W4226321639 cites W2944687278 @default.
W4226321639 cites W2945884165 @default.
W4226321639 cites W2951819821 @default.
W4226321639 cites W2963885768 @default.
W4226321639 cites W2968552071 @default.
W4226321639 cites W2977411379 @default.
W4226321639 cites W3009117541 @default.
W4226321639 cites W3009171047 @default.
W4226321639 cites W3009241792 @default.
W4226321639 cites W3014491804 @default.
W4226321639 cites W3016571188 @default.
W4226321639 cites W3021994650 @default.
W4226321639 cites W3022985471 @default.
W4226321639 cites W3028291334 @default.
W4226321639 cites W3035506323 @default.
W4226321639 cites W3082317166 @default.
W4226321639 cites W3098576151 @default.
W4226321639 cites W3099387026 @default.
W4226321639 cites W3099916757 @default.
W4226321639 cites W3099978271 @default.
W4226321639 cites W3100593949 @default.
W4226321639 cites W3101466403 @default.
W4226321639 cites W3102315819 @default.
W4226321639 cites W3102471451 @default.
W4226321639 cites W3103125343 @default.
W4226321639 cites W3103170714 @default.
W4226321639 cites W3104997331 @default.
W4226321639 cites W3123917034 @default.
W4226321639 cites W3126955836 @default.
W4226321639 cites W3154655146 @default.
W4226321639 cites W3157816815 @default.
W4226321639 cites W3187239044 @default.
W4226321639 cites W3200301812 @default.
W4226321639 cites W3201058386 @default.
W4226321639 cites W3204736872 @default.
W4226321639 cites W3211125805 @default.
W4226321639 cites W4200131341 @default.
W4226321639 cites W4212980693 @default.
W4226321639 doi "https://doi.org/10.1103/physrevd.105.084065" @default.
W4226321639 hasPublicationYear "2022" @default.
W4226321639 type Work @default.
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