Low/High frequency - Network size trade off

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Presentation transcript:

Low/High frequency - Network size trade off Salvatore Vitale’s personal view subject to updates MIT

Color code Blue: concerning black holes Magenta: concerning neutron stars Green: concerning CWs Yellow: concerning stochastic. Orange: bursts Dashed: the unexpected Some boxes are red and blue meaning that any combination of NS and/or BH is relevant. 11/6/2019 Salvatore Vitale

Caveats This plot should be taken as an indication of what science topics rely on which frequency and the number of detectors It is not meant to be rigorous (at least in this version) It’s something I put together to show clearly how the answer to “what’s the optimal network configuration” strongly depends on the scientific question one is trying to answer I will try to keep this to date and improve it with suggestions I receive You are welcome to use this diagram, just please kindly credit it 11/6/2019 Salvatore Vitale

Better high-frequency Better low-frequency More detectors The unexpected Early-warning localization CW Axions from 30M BH remnant Stochastic Sky localization BNS Source-frame masses IMBH or high-z BBH Tests of General relativity Distance/ Cosmology Inclination/ EM modeling NS post-merger Supernovae and other unmodeled transients Memory Continuous waves Precessing BH spins Aligned BH spins Eccentricity mass ratio Ringdown NS Equation of state S. Vitale, 2019 Better bucket Better high-frequency Better low-frequency