Atom Chip BEC Interferometer

A Bose-Einstein condensate (BEC) interferometer on an atom chip is capable of making an absolute force measurement. The author demonstrates this by making an absolute measurement of the gravitational acceleration g. Two interferometer arms are implemented by splitting a BEC into two symmetric wells using radio-frequency (rf) adiabatic potentials. The independent control of the rf currents running through the chip surface allows to change the polarization of the field and hence the orientation of the double well potential. Tilting of the system with respect to the horizontal introduces an energy difference and the relative phase between the BECs starts to evolve. After moving the atoms back to their initial position and overlapping the clouds in free fall the resulting phase exhibits in the interference pattern. In order to derive a number for g from experimental results a detailed analysis and understanding of the interferometer scheme is essential.

Autorentext

was born in Mühlacker, Germany, in 1980. He studied physics at the universities of Heidelberg and Vienna. He finished his PhD at Imperial College London in 2010 where he focused on the physics of cold atoms. Since 2011 he has been working on the development of automotive radar sensors at Mercedes-Benz Cars.