Quantum Test of Einstein's Equivalence Principle
By allowing a violation of the universality of free fall, certain theoretical scenarios reconcile the two major theories of modern physics, general relativity and quantum mechanics, which are currently inconsistent. The universality of free fall, a corner stone of Einstein's general relativity, states: that two bodies will drop at the same rate in a given gravitational field. Our objective is to test this by means of matter wave interferometry. We exploit the wave nature of 87Rb and 39K atoms and, by their interference, measure the gravitational acceleration.
We have demonstrated the first inertial sensitive interferometer using 39K with pulse separation times of up to T=25ms and realized a rubidium gravimeter (T=60ms) with a short term stability of 4.2x10-6 m/s2/Hz1/2 and a resolution of 3.86x10-8 m/s2 @ 49152s integration.
- Quantum test of Einstein's equivalence principle
- Studies of optical traps as sources for precision matter wave interferometry
- Pulsed source of (ultra)cold atomic ensembles