SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2031503982> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2031503982 abstract "We address issues with extant formulations of dissipative effects in the effective field theory (EFT) which describe the post-Newtonian (PN) inspiral of two gravitating bodies by (re)formulating several parts of the theory. Novel ingredients include gauge-invariant spherical fields in the radiation zone; a system zone that preserves time reversal such that its violation arises not from local odd propagation but rather from interaction with the radiation sector in a way that resembles the balayage method; two-way multipoles to perform zone matching within the EFT action; and a double-field radiation-reaction action that is the nonquantum version of the closed time path formalism and generalizes to any theory with directed propagators including theories that are defined by equations of motion rather than an action. This formulation unifies the treatment of outgoing radiation and its reaction force. We demonstrate the method in the scalar, electromagnetic, and gravitational cases by economizing the following: the expression for the radiation source multipoles; the derivation of the leading outgoing radiation and associated reaction force such that it is maximally reduced to mere multiplication; and the derivation of the gravitational next-to-leading PN order. In fact we present a novel expression for the $+1mathrm{PN}$ correction to all mass multipoles. We introduce useful definitions for multi-index summation, for the normalization of Bessel functions, and for the normalization of the gravitomagnetic vector potential." @default.
W2031503982 created "2016-06-24" @default.
W2031503982 creator A5000012744 @default.
W2031503982 creator A5042206994 @default.
W2031503982 creator A5084465608 @default.
W2031503982 date "2013-11-27" @default.
W2031503982 modified "2023-10-16" @default.
W2031503982 title "Theory of post-Newtonian radiation and reaction" @default.
W2031503982 cites W1594002267 @default.
W2031503982 cites W1611138248 @default.
W2031503982 cites W1625147384 @default.
W2031503982 cites W1824429646 @default.
W2031503982 cites W1965535512 @default.
W2031503982 cites W1965995299 @default.
W2031503982 cites W1968939351 @default.
W2031503982 cites W1970433944 @default.
W2031503982 cites W1970915692 @default.
W2031503982 cites W1971402212 @default.
W2031503982 cites W1973355558 @default.
W2031503982 cites W1974169165 @default.
W2031503982 cites W1974300334 @default.
W2031503982 cites W1978525979 @default.
W2031503982 cites W1979683698 @default.
W2031503982 cites W1979807199 @default.
W2031503982 cites W1980973994 @default.
W2031503982 cites W1985278391 @default.
W2031503982 cites W1987218951 @default.
W2031503982 cites W1987881172 @default.
W2031503982 cites W1992785704 @default.
W2031503982 cites W1994489827 @default.
W2031503982 cites W1995114597 @default.
W2031503982 cites W1999405654 @default.
W2031503982 cites W1999455329 @default.
W2031503982 cites W2000808445 @default.
W2031503982 cites W2011658404 @default.
W2031503982 cites W2012291066 @default.
W2031503982 cites W2012471390 @default.
W2031503982 cites W2014203239 @default.
W2031503982 cites W2016987507 @default.
W2031503982 cites W2017542306 @default.
W2031503982 cites W2023767933 @default.
W2031503982 cites W2027627857 @default.
W2031503982 cites W2028805543 @default.
W2031503982 cites W2031406439 @default.
W2031503982 cites W2033985105 @default.
W2031503982 cites W2069651370 @default.
W2031503982 cites W2075162913 @default.
W2031503982 cites W2077590995 @default.
W2031503982 cites W2092408141 @default.
W2031503982 cites W2094546398 @default.
W2031503982 cites W2096458920 @default.
W2031503982 cites W2098155618 @default.
W2031503982 cites W2102464939 @default.
W2031503982 cites W2102990611 @default.
W2031503982 cites W2113359162 @default.
W2031503982 cites W2118761939 @default.
W2031503982 cites W2118780319 @default.
W2031503982 cites W2119788117 @default.
W2031503982 cites W2125729703 @default.
W2031503982 cites W2128132769 @default.
W2031503982 cites W2128718137 @default.
W2031503982 cites W2129324828 @default.
W2031503982 cites W2129624479 @default.
W2031503982 cites W2140969864 @default.
W2031503982 cites W2146075155 @default.
W2031503982 cites W2148994792 @default.
W2031503982 cites W2156399802 @default.
W2031503982 cites W2158263788 @default.
W2031503982 cites W2163839163 @default.
W2031503982 cites W2164022410 @default.
W2031503982 cites W2166745954 @default.
W2031503982 cites W2203079763 @default.
W2031503982 cites W2316876336 @default.
W2031503982 cites W2320984120 @default.
W2031503982 cites W2323174428 @default.
W2031503982 cites W2581169607 @default.
W2031503982 cites W2601214222 @default.
W2031503982 cites W3049399914 @default.
W2031503982 cites W3100108344 @default.
W2031503982 cites W3100214389 @default.
W2031503982 cites W3101308910 @default.
W2031503982 cites W3103675936 @default.
W2031503982 cites W3104382708 @default.
W2031503982 cites W3104580363 @default.
W2031503982 cites W3105926272 @default.
W2031503982 cites W3121692830 @default.
W2031503982 cites W4211067627 @default.
W2031503982 cites W4233549672 @default.
W2031503982 cites W4241741064 @default.
W2031503982 cites W4247306364 @default.
W2031503982 cites W4255317201 @default.
W2031503982 cites W836816506 @default.
W2031503982 doi "https://doi.org/10.1103/physrevd.88.104037" @default.
W2031503982 hasPublicationYear "2013" @default.
W2031503982 type Work @default.
W2031503982 sameAs 2031503982 @default.
W2031503982 citedByCount "15" @default.
W2031503982 countsByYear W20315039822013 @default.
W2031503982 countsByYear W20315039822014 @default.
W2031503982 countsByYear W20315039822015 @default.