Savas Dimopoulos, Peter W. Graham, Jason M. Hogan, Mark A. Kasevich
Published 2006-10-10, updated 2007-03-27Version 2
The unprecedented precision of atom interferometry will soon lead to laboratory tests of general relativity to levels that will rival or exceed those reached by astrophysical observations. We propose such an experiment that will initially test the equivalence principle to 1 part in 10^15 (300 times better than the current limit), and 1 part in 10^17 in the future. It will also probe general relativistic effects--such as the non-linear three-graviton coupling, the gravity of an atom's kinetic energy, and the falling of light--to several decimals. Further, in contrast to astrophysical observations, laboratory tests can isolate these effects via their different functional dependence on experimental variables.
Comments: 4 pages, 1 figure; v2: Minor changes made for publication
Journal: Phys.Rev.Lett.98:111102,2007
Gravitational Wave Detection with Atom Interferometry
Testing General Relativity with Present and Future Astrophysical Observations
Recent Improvements in Testing General Relativity with Satellite Laser Ranging
