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Spin and Quadrupole corrections to IMRIs

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Presentation on theme: "Spin and Quadrupole corrections to IMRIs"— Presentation transcript:

1 Spin and Quadrupole corrections to IMRIs
Asia Pacific Center for Theoretical Physics Jiang Long (龙江) Dec 28, 2018, Shandong

2 Contents Introduction and motivation Gravitational waves Conclusion

3 Introduction and motivation
Breakthrough from theoretical physics: holography Development from experimental physics: discovery of gravitational waves Question: overlap region? Near horizon region of near extreme Kerr black hole: constraints from conformal symmetry Merger of binary black hole

4 Recent development of gravitational waves (Picture from LIGO)

5 Recent development of gravitational waves (Picture from LIGO)

6 Binary black hole Binary system: key to gravitational wave observation
Newton gravity: exactly sovable Einstein gravity: no general analytic solution be found

7 Extreme mass ratio inspirals (EMRIs) and Intermediate mass ratio inspirals(IMRIs)

8 EMRIs around high spin Kerr black hole

9 Three steps to fall into high spin Kerr BH
Question: Orbits and Gravitational waves ? Focus on the final stage of the merger Conformal symmetry dominates the process Analytic results J.Bardeen, W.Press,S.Teakolsky, 1972

10 Assumptions

11 Spin supplementary condition(SSC)

12 Quadrupole model Up to quadruple correction
Up to linear term of Riemann tensor and quadratic term of spin The gravito-electric and gravito-magnetic tidal force is higher order

13 Orbits

14 Gravitational waves Leading order: solve linear Teukolsky equation in Newman-Penrose formalism Gravitational waveform (circular orbits) Frequency: expanded in terms of spin Leading order: determined by orbital angular momentum Subsubleading order: corrected by spin, vanishes for BHs.

15 Gravitational waves Polynomial decay+ exponential decay

16 Conclusion

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