Theoretical Models for Binary Systems in Einstein Scalar Gauss-Bonnet Gravity

Theoretical Models for Binary Systems in Einstein Scalar Gauss-Bonnet Gravity

Galileo Galilei Institute via YouTube Direct link

BHs with scalar condensates: dipolar scalar Love number

9 of 14

9 of 14

BHs with scalar condensates: dipolar scalar Love number

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Theoretical Models for Binary Systems in Einstein Scalar Gauss-Bonnet Gravity

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  1. 1 Overview
  2. 2 Main references
  3. 3 The essential role of theoretical models for binaries
  4. 4 Approximate flow of information during the inspiral
  5. 5 Case study: Einstein scalar Gauss-Bonnet (EsGB) gravity
  6. 6 Features of EsGB black holes
  7. 7 Binary dynamics: orbital-scale description of the system
  8. 8 Matching the tidal coefficients via scattering
  9. 9 BHs with scalar condensates: dipolar scalar Love number
  10. 10 Approximate solutions for the radiation
  11. 11 Tidal and GB curvature effects
  12. 12 Caveat: size of the transition regime
  13. 13 Prospects with multi-band GW astronomy
  14. 14 Tidal response in terms of scattering amplitudes

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