Quantum tests of the Weak Equivalence Principle in micro- gravity

Paper number

IAC-14,A2,1,8,x23275

Author

Dr. Naceur Gaaloul, Institute of Quantum Optics, Germany

Coauthor

Dr. Ernst Maria Rasel, Leibniz Universiät Hannover, Germany

Year

2014

Abstract

The high precision of atom interferometer-based sensors makes it nowadays an exquisite tool for performing tests of fundamental theories and
for practical applications in inertial navigation, geophysics and time-
keeping. One timely challenge is to test the weak equivalence principle,
a corner stone of General Relativity, by tracking the trajectories of two
different masses in free fall. An unprecedented sensitivity is expected
when the interferometry time is reaching several seconds thanks to an
operation in microgravity. In the talk we present the current study status of proposed European space missions (Q-WEP and STE-QUEST) and the progress in national missions (QUANTUS and MAIUS)
aiming for a weak equivalence principle test using a differential atom
interferometer with Bose-Einstein condensates as a source. The measurement principle will be presented, an overview of the payload design
will be given, and the estimated error budget will be discussed.

Abstract document

IAC-14,A2,1,8,x23275.brief.pdf

Manuscript document

(absent)