Litcius/Paper detail

Constraints on Einstein-Maxwell dilaton-axion gravity from X-ray reflection spectroscopy

Ashutosh Tripathi, Biao Zhou, Askar B. Abdikamalov, Dimitry Ayzenberg, Cosimo Bambi

2021Journal of Cosmology and Astroparticle Physics29 citationsDOIOpen Access PDF

Abstract

Einstein-Maxwell dilaton-axion gravity is a string-inspired model arising from the low energy effective action of heterotic string theory and an important candidate as alternative to General Relativity. Recently, some authors have explored its astrophysical implications in the spectra of accreting black holes and inferred the constraint $r_2 < 0.1$, where $r_2 \ge 0$ is the black hole dilaton charge and General Relativity is recovered for $r_2 = 0$. In the present paper, we study the impact of a non-vanishing black hole dilaton charge on the reflection spectrum of the disk. From the analysis of a NuSTAR spectrum of the black hole binary EXO 1846-031, we find the constraint $r_2 < 0.011$ (90% CL), which is an order of magnitude more stringent.

Topics & Concepts

PhysicsGeneral relativityBlack hole (networking)DilatonHeterotic string theoryMicro black holeTheoretical physicsGravitationBinary black holeString theoryReflection (computer programming)Quantum electrodynamicsString (physics)Gravitational waveCharge (physics)Tests of general relativityCharged black holeHawking radiationAstrophysicsNumerical relativityClassical mechanicsBlack braneCosmologyExtremal black holeEffective actionStrong gravityTensor (intrinsic definition)Spectral lineTheory of relativityBlack hole thermodynamicsQuantum mechanicsPoint particleSpectrum (functional analysis)FuzzballSonic black holeConstraint (computer-aided design)Black stringBinary numberEinsteinStellar black holeAstrophysical Phenomena and ObservationsCosmology and Gravitation TheoriesBlack Holes and Theoretical Physics