Testing the Strong Equivalence Principle: Detection of the External Field Effect in Rotationally Supported Galaxies. (arXiv:2009.11525v2 [astro-ph.GA] UPDATED)
<a href="http://arxiv.org/find/astro-ph/1/au:+Chae_K/0/1/0/all/0/1">Kyu-Hyun Chae</a>, <a href="http://arxiv.org/find/astro-ph/1/au:+Lelli_F/0/1/0/all/0/1">Federico Lelli</a>, <a href="http://arxiv.org/find/astro-ph/1/au:+Desmond_H/0/1/0/all/0/1">Harry Desmond</a>, <a href="http://arxiv.org/find/astro-ph/1/au:+McGaugh_S/0/1/0/all/0/1">Stacy S. McGaugh</a>, <a href="http://arxiv.org/find/astro-ph/1/au:+Li_P/0/1/0/all/0/1">Pengfei Li</a>, <a href="http://arxiv.org/find/astro-ph/1/au:+Schombert_J/0/1/0/all/0/1">James M. Schombert</a>
The strong equivalence principle (SEP) distinguishes General Relativity from
other viable theories of gravity. The SEP demands that the internal dynamics of
a self-gravitating system under free-fall in an external gravitational field
should not depend on the external field strength. We test the SEP by
investigating the external field effect (EFE) in Milgromian dynamics (MOND),
proposed as an alternative to dark matter in interpreting galactic kinematics.
We report a detection of this EFE using galaxies from the Spitzer Photometry
and Accurate Rotation Curves (SPARC) sample together with estimates of the
large-scale external gravitational field from an all-sky galaxy catalog. Our
detection is threefold: (1) the EFE is individually detected at $8sigma$ to
$11sigma$ in “golden” galaxies subjected to exceptionally strong external
fields, while it is not detected in exceptionally isolated galaxies, (2) the
EFE is statistically detected at more than $4sigma$ from a blind test of 153
SPARC rotating galaxies, giving a mean value of the external field consistent
with an independent estimate from the galaxies’ environments, and (3) we detect
a systematic downward trend in the weak gravity part of the radial acceleration
relation at the right acceleration predicted by the EFE of the MOND modified
gravity. Tidal effects from neighboring galaxies in the $Lambda$CDM context
are not strong enough to explain these phenomena. They are not predicted by
existing $Lambda$CDM models of galaxy formation and evolution, adding a new
small-scale challenge to the $Lambda$CDM paradigm. Our results point to a
breakdown of the SEP, supporting modified gravity theories beyond General
Relativity.
The strong equivalence principle (SEP) distinguishes General Relativity from
other viable theories of gravity. The SEP demands that the internal dynamics of
a self-gravitating system under free-fall in an external gravitational field
should not depend on the external field strength. We test the SEP by
investigating the external field effect (EFE) in Milgromian dynamics (MOND),
proposed as an alternative to dark matter in interpreting galactic kinematics.
We report a detection of this EFE using galaxies from the Spitzer Photometry
and Accurate Rotation Curves (SPARC) sample together with estimates of the
large-scale external gravitational field from an all-sky galaxy catalog. Our
detection is threefold: (1) the EFE is individually detected at $8sigma$ to
$11sigma$ in “golden” galaxies subjected to exceptionally strong external
fields, while it is not detected in exceptionally isolated galaxies, (2) the
EFE is statistically detected at more than $4sigma$ from a blind test of 153
SPARC rotating galaxies, giving a mean value of the external field consistent
with an independent estimate from the galaxies’ environments, and (3) we detect
a systematic downward trend in the weak gravity part of the radial acceleration
relation at the right acceleration predicted by the EFE of the MOND modified
gravity. Tidal effects from neighboring galaxies in the $Lambda$CDM context
are not strong enough to explain these phenomena. They are not predicted by
existing $Lambda$CDM models of galaxy formation and evolution, adding a new
small-scale challenge to the $Lambda$CDM paradigm. Our results point to a
breakdown of the SEP, supporting modified gravity theories beyond General
Relativity.
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