Jian-dong Zhang scite author profile

We present a Bayesian parameter estimation progress to infer the stellar mass binary black hole properties by TianQin, LISA, and TianQin+LISA. Two typical Stellar-mass Black Hole Binary systems, GW150914 and GW190521 are chosen as the fiducial sources. In this work, we establish the ability of TianQin to infer the parameters of those systems and first apply the full frequency response in TianQin's data analysis. We obtain the parameter estimation results and explain the correlation between them. We also find the TianQin+LISA could marginally increase the parameter estimation precision and narrow the 1σ area compared with TianQin and LISA individual observations. We finally demonstrate the importance of considering the effect of spin when the binaries have a nonzero component spin and great derivation will appear especially on mass, coalescence time and sky location.

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Science with the TianQin observatory: Preliminary results on testing the no-hair theorem with ringdown signals

Shi

Bao

Wang

et al. 2019

Phys. Rev. D

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We study the capability of the space-based gravitational wave observatory TianQin to test the nohair theorem of General Relativity, using the ringdown signal from the coalescence of massive black hole binaries. We parameterize the ringdown signal by the four strongest quasinormal modes and estimate the signal to noise ratio for various source parameters. We consider constraints both from single detections and from all the events combined throughout the lifetime of the observatory, for different astrophysical models. We find that at the end of the mission, TianQin will have constrained deviations of the frequency and decay time of the dominant 22 mode from the general relativistic predictions to within 0.2 % and 1.5 % respectively, the frequencies of the subleading modes can be also constrained within 0.3%. We also find that TianQin and LISA are highly complementary, by virtue of their different frequency windows. Indeed, LISA can best perform ringdown tests for black hole masses in excess of ∼ 3 × 10 6 M , while TianQin is best suited for lower masses.

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Kinematic space and wormholes

Zhang

Chen

2017

J. High Energ. Phys.

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Abstract:The kinematic space could play a key role in constructing the bulk geometry from dual CFT. In this paper, we study the kinematic space from geometric points of view, without resorting to differential entropy. We find that the kinematic space could be intrinsically defined in the embedding space. For each oriented geodesic in the Poincaré disk, there is a corresponding point in the kinematic space. This point is the tip of the causal diamond of the disk whose intersection with the Poincaré disk determines the geodesic. In this geometric construction, the causal structure in the kinematic space can be seen clearly. Moreover, we find that every transformation in the SL(2, R) leads to a geodesic in the kinematic space. In particular, for a hyperbolic transformation defining a BTZ black hole, it is a timelike geodesic in the kinematic space. We show that the horizon length of the static BTZ black hole could be computed by the geodesic length of corresponding points in the kinematic space. Furthermore, we discuss the fundamental regions in the kinematic space for the BTZ blackhole and multi-boundary wormholes.

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Constraining modified gravity with ringdown signals: An explicit example

et al. 2019

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An explicit example is found showing how a modified theory of gravity can be constrained with the ringdown signals from merger of binary black holes. This has been made possible by the fact that the modified gravitational theory considered in this work has an exact rotating black hole solution and that the corresponding quasi-normal modes can be calculated. With these, we obtain the possible constraint that can be placed on the parameter describing the deviation of this particular alternative theory from general relativity by using the detection of the ringdown signals from binary black holes's merger with future space-based gravitational wave detectors.

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Science with the TianQin Observatory: Preliminary results on stochastic gravitational-wave background

Liang

Jiang

et al. 2022

Phys. Rev. D

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Jian-dong Zhang

Science with the TianQin observatory: Preliminary results on stellar-mass binary black holes

Science with the TianQin observatory: Preliminary results on testing the no-hair theorem with ringdown signals

Kinematic space and wormholes

Constraining modified gravity with ringdown signals: An explicit example

Science with the TianQin Observatory: Preliminary results on stochastic gravitational-wave background

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