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W3151398053 abstract "The effect of energy absorption during the binary evolution of Exotic-compact-objects (ECOs) is extensively studied. We review the underlying mechanism that provides the energy dissipation in material objects - tidal friction. We show that unlike typical astrophysical objects, where absorption due to viscosity is negligible, in ECOs, absorption could potentially mimic the analogous effect of black-holes (BHs) - tidal heating. We stand for their differences and similarities in the context of energy dissipation during the inspiral. Inspired by the membrane paradigm and recent studies, we demonstrate how viscosity is a defining feature that quantifies how close is the ECO absorption to that of a classical BH absorption. We show that for ECOs, viscosity can induce significant modifications to the GW waveform, which in some favorable scenarios of super-massive binaries of equal mass and spin, enables the measurement of the ECO absorption in the future precision gravitational-wave (GW) observations. Finally, we discuss the implications on the ECO reflection coefficient and the relation to the universal viscosity to volume entropy bound." @default.
W3151398053 created "2021-04-13" @default.
W3151398053 creator A5030059398 @default.
W3151398053 date "2021-05-03" @default.
W3151398053 modified "2023-09-26" @default.
W3151398053 title "Tidal-heating and viscous dissipation correspondence in black holes and viscous compact objects" @default.
W3151398053 cites W1134494461 @default.
W3151398053 cites W1957495219 @default.
W3151398053 cites W1970253213 @default.
W3151398053 cites W1974643913 @default.
W3151398053 cites W1985071512 @default.
W3151398053 cites W1988281968 @default.
W3151398053 cites W1992634819 @default.
W3151398053 cites W1995367871 @default.
W3151398053 cites W1995777558 @default.
W3151398053 cites W1998105152 @default.
W3151398053 cites W2005280645 @default.
W3151398053 cites W2012430171 @default.
W3151398053 cites W2012812032 @default.
W3151398053 cites W2016405928 @default.
W3151398053 cites W2020028702 @default.
W3151398053 cites W2032107800 @default.
W3151398053 cites W2037435289 @default.
W3151398053 cites W2039752634 @default.
W3151398053 cites W2040558894 @default.
W3151398053 cites W2042182643 @default.
W3151398053 cites W2043483422 @default.
W3151398053 cites W2045137892 @default.
W3151398053 cites W2048469624 @default.
W3151398053 cites W2078846963 @default.
W3151398053 cites W2097909025 @default.
W3151398053 cites W2098198048 @default.
W3151398053 cites W2106532428 @default.
W3151398053 cites W2114921162 @default.
W3151398053 cites W2133890384 @default.
W3151398053 cites W2145981472 @default.
W3151398053 cites W2160511150 @default.
W3151398053 cites W2167516926 @default.
W3151398053 cites W2167837229 @default.
W3151398053 cites W2171344591 @default.
W3151398053 cites W2210839012 @default.
W3151398053 cites W2231773349 @default.
W3151398053 cites W2273892807 @default.
W3151398053 cites W2278192459 @default.
W3151398053 cites W2288107502 @default.
W3151398053 cites W2519962468 @default.
W3151398053 cites W2585537525 @default.
W3151398053 cites W2604436925 @default.
W3151398053 cites W2608063810 @default.
W3151398053 cites W2613872539 @default.
W3151398053 cites W2750314167 @default.
W3151398053 cites W2765081049 @default.
W3151398053 cites W2770145223 @default.
W3151398053 cites W2795266096 @default.
W3151398053 cites W2890935589 @default.
W3151398053 cites W2901328455 @default.
W3151398053 cites W2901990996 @default.
W3151398053 cites W2904530730 @default.
W3151398053 cites W2913701109 @default.
W3151398053 cites W2918199693 @default.
W3151398053 cites W2939844447 @default.
W3151398053 cites W2942850309 @default.
W3151398053 cites W2962876006 @default.
W3151398053 cites W2973189566 @default.
W3151398053 cites W2980854347 @default.
W3151398053 cites W2999365684 @default.
W3151398053 cites W3005803420 @default.
W3151398053 cites W3037269817 @default.
W3151398053 cites W3098704553 @default.
W3151398053 cites W3098778570 @default.
W3151398053 cites W3098968904 @default.
W3151398053 cites W3099531245 @default.
W3151398053 cites W3100112599 @default.
W3151398053 cites W3100363813 @default.
W3151398053 cites W3100430726 @default.
W3151398053 cites W3100928534 @default.
W3151398053 cites W3101308910 @default.
W3151398053 cites W3101418327 @default.
W3151398053 cites W3101437551 @default.
W3151398053 cites W3105243820 @default.
W3151398053 cites W3123280821 @default.
W3151398053 cites W4253375430 @default.
W3151398053 doi "https://doi.org/10.1103/physrevd.103.104003" @default.
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