Yotam Sherf scite author profile

Yotam Sherf

5Publications

47Citation Statements Received

330Citation Statements Given

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Ben-Gurion University of the Negev

Publications

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Causality violations in Lovelock theories

Brustein

Sherf

2018

Phys. Rev. D

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Higher-derivative gravity theories, such as Lovelock theories, generalize Einstein's general relativity (GR). Modifications to GR are expected when curvatures are near Planckian and appear in string theory or supergravity. But can such theories describe gravity on length scales much larger than the Planck cutoff length scale? Here we find causality constraints on Lovelock theories that arise from the requirement that the equations of motion (EOM) of perturbations be hyperbolic. We find a general expression for the "effective metric" in field space when Lovelock theories are perturbed around some symmetric background solution. In particular, we calculate explicitly the effective metric for a general Lovelock theory perturbed around cosmological Friedman-Robertson-Walker backgrounds and for some specific cases when perturbed around Schwarzschild-like solutions. For the EOM to be hyperbolic, the effective metric needs to be Lorentzian. We find that, unlike for GR, the effective metric is generically not Lorentzian when the Lovelock modifications are significant. So, we conclude that Lovelock theories can only be considered as perturbative extensions of GR and not as truly modified theories of gravity. We compare our results to those in the literature and find that they agree with and reproduce the results of previous studies.

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Quantum Love numbers

Brustein

Sherf

2022

Phys. Rev. D

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Hyperbolicity constraints in extended gravity theories

Sherf¹

2019

Phys. Scr.

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We study the characteristic structure of the Einstein-Hilbert (EH) action when modifications of the form of R 2 , R 2 µν , R 2 µνρσ and C 2 µνρσ are included. We show that when these quadratic terms are significant, the initial value problem is generically ill-posed . We do so by demanding the hyperbolicity of the effective metric for propagation of perturbations. Here, we find a general expression for the effective metric in field space and calculate it explicitly about the cosmological Friedman-Robertson-Walker (FRW) spacetime, and the spherically symmetric Schwarzschild solution. We find that when these quadratic contributions are non-negligible, the signature of the effective metric becomes non-Lorentzian and hence non-hyperbolic. As a consequence, we conclude that theories suggesting the inclusion of these terms can only be considered as a perturbative extension of the EH action and therefore cannot constitute a true alternative to general relativity (GR).

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Classical Love number for quantum black holes

Brustein

Sherf

2022

Phys. Rev. D

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Sub-atomic constraints on the Kerr geometry of GW150914

Westerweck¹,

Sherf²,

Capano³

et al. 2021

Preprint

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We obtain stringent constraints on near-horizon deviations of a black hole from the Kerr geometry by performing a long-duration Bayesian analysis of the gravitational-wave data immediately following GW150914. GW150914 was caused by a binary system that merged to form a final compact object. We parameterize deviations of this object from a Kerr black hole by modifying its boundary conditions from full absorption to full reflection, thereby modeling it as a horizonless ultracompact object. Such modifications result in the emission of long-lived monochromatic quasinormal modes after the merger. These modes would extract energy on the order of a few solar masses from the final object, making them observable by LIGO. By putting bounds on the existence of these modes, we show that the Kerr geometry is not modified down to distances as small as 4 × 10 −16 meters away from the horizon. Our results indicate that the post-merger object formed by GW150914 is a black hole that is well described by the Kerr geometry.

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Yotam Sherf

Causality violations in Lovelock theories

Quantum Love numbers

Hyperbolicity constraints in extended gravity theories

Classical Love number for quantum black holes

Sub-atomic constraints on the Kerr geometry of GW150914

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