Abstract
On August 17, 2017 the LIGO interferometers detected the gravitational wave
(GW) signal (GW170817) from the coalescence of binary neutron stars. This
signal was also simultaneously seen throughout the electromagnetic (EM)
spectrum from radio waves to gamma-rays. We point out that this simultaneous
detection of GW and EM signals rules out a class of modified gravity theories,
which dispense with the need for dark matter. This simultaneous observation
also provides the first ever test of Einstein's Weak Equivalence Principle
(WEP) between gravitons and photons. We calculate the Shapiro time delay due to
the gravitational potential of the total dark matter distribution along the
line of sight (complementary to the calculation in <a href="/abs/1710.05834">arXiv:1710.05834</a>) to be
about 1000 days. Using this estimate for the Shapiro delay and from the time
difference of 1.7 seconds between the GW signal and gamma-rays, we can
constrain violations of WEP using the parameterized post-Newtonian (PPN)
parameter \$\gamma\$, and is given by \$|\gamma\_GW-\gamma\_EM|<3.9
10^-8\$.
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