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W2534911897 abstract "A detection of a core-collapse supernova (CCSN) gravitational-wave (GW) signal with an Advanced LIGO and Virgo detector network may allow us to measure astrophysical parameters of the dying massive star. GWs are emitted from deep inside the core, and, as such, they are direct probes of the CCSN explosion mechanism. In this study, we show how we can determine the CCSN explosion mechanism from a GW supernova detection using a combination of principal component analysis and Bayesian model selection. We use simulations of GW signals from CCSN exploding via neutrino-driven convection and rapidly rotating core collapse. Previous studies have shown that the explosion mechanism can be determined using one LIGO detector and simulated Gaussian noise. As real GW detector noise is both nonstationary and non-Gaussian, we use real detector noise from a network of detectors with a sensitivity altered to match the advanced detectors design sensitivity. For the first time, we carry out a careful selection of the number of principal components to enhance our model selection capabilities. We show that with an advanced detector network we can determine if the CCSN explosion mechanism is driven by neutrino convection for sources in our Galaxy and rapidly-rotating core collapse for sources out to the Large Magellanic Cloud." @default.
W2534911897 created "2016-10-28" @default.
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W2534911897 date "2016-12-27" @default.
W2534911897 modified "2023-10-03" @default.
W2534911897 title "Inferring the core-collapse supernova explosion mechanism with gravitational waves" @default.
W2534911897 cites W1480376833 @default.
W2534911897 cites W1624321527 @default.
W2534911897 cites W1749804791 @default.
W2534911897 cites W1966071831 @default.
W2534911897 cites W1975717686 @default.
W2534911897 cites W1985128692 @default.
W2534911897 cites W1985996701 @default.
W2534911897 cites W1986169232 @default.
W2534911897 cites W1991170689 @default.
W2534911897 cites W1994309766 @default.
W2534911897 cites W1994870116 @default.
W2534911897 cites W2000006405 @default.
W2534911897 cites W2004109700 @default.
W2534911897 cites W2006236748 @default.
W2534911897 cites W2012291066 @default.
W2534911897 cites W2024195070 @default.
W2534911897 cites W2025372871 @default.
W2534911897 cites W2028261804 @default.
W2534911897 cites W2030679611 @default.
W2534911897 cites W2037939815 @default.
W2534911897 cites W2042172374 @default.
W2534911897 cites W2049955461 @default.
W2534911897 cites W2053082676 @default.
W2534911897 cites W2058582347 @default.
W2534911897 cites W2066560771 @default.
W2534911897 cites W2067173177 @default.
W2534911897 cites W2068718327 @default.
W2534911897 cites W2070717869 @default.
W2534911897 cites W2077379468 @default.
W2534911897 cites W2098813469 @default.
W2534911897 cites W2105796531 @default.
W2534911897 cites W2109508693 @default.
W2534911897 cites W2113068723 @default.
W2534911897 cites W2113828092 @default.
W2534911897 cites W2115842144 @default.
W2534911897 cites W2115906791 @default.
W2534911897 cites W2118143333 @default.
W2534911897 cites W2123692678 @default.
W2534911897 cites W2132401832 @default.
W2534911897 cites W2140605762 @default.
W2534911897 cites W2148574866 @default.
W2534911897 cites W2149013410 @default.
W2534911897 cites W2156532391 @default.
W2534911897 cites W2161676506 @default.
W2534911897 cites W2169205880 @default.
W2534911897 cites W2171482804 @default.
W2534911897 cites W2177010339 @default.
W2534911897 cites W2187412646 @default.
W2534911897 cites W2268511610 @default.
W2534911897 cites W2292293901 @default.
W2534911897 cites W2345408186 @default.
W2534911897 cites W2962896983 @default.
W2534911897 cites W3005669794 @default.
W2534911897 cites W3098619516 @default.
W2534911897 cites W3099652661 @default.
W2534911897 cites W3100747981 @default.
W2534911897 cites W3102004940 @default.
W2534911897 cites W3102981061 @default.
W2534911897 cites W3103271996 @default.
W2534911897 cites W3103600948 @default.
W2534911897 cites W3104383302 @default.
W2534911897 cites W3104474120 @default.
W2534911897 cites W3105207349 @default.
W2534911897 cites W3105208223 @default.
W2534911897 cites W3106070152 @default.
W2534911897 cites W3106365518 @default.
W2534911897 cites W3121908426 @default.
W2534911897 cites W3123552975 @default.
W2534911897 cites W3124935603 @default.
W2534911897 cites W3125265329 @default.
W2534911897 cites W36690651 @default.
W2534911897 cites W4298015914 @default.
W2534911897 cites W4301633560 @default.
W2534911897 doi "https://doi.org/10.1103/physrevd.94.123012" @default.
W2534911897 hasPublicationYear "2016" @default.
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