%0 Journal Article %1 toros2017quantum %A Toroš, Marko %A Großardt, André %A Bassi, Angelo %D 2017 %K %T Quantum mechanics for non-inertial observers %U http://arxiv.org/abs/1701.04298 %X A recent analysis by Pikovski et al. Nat. Phys. 11, 668 (2015) has triggered interest in the question of how to include relativistic corrections in the quantum dynamics governing many-particle systems in a gravitational field. Here we show how the center-of-mass motion of a quantum system subject to gravity can be derived more rigorously, addressing the ambiguous definition of relativistic center-of-mass coordinates. We further demonstrate that, contrary to the prediction by Pikovski et al., external forces play a crucial role in the relativistic coupling of internal and external degrees of freedom, resulting in a complete cancellation of the alleged coupling in Earth-bound laboratories for systems supported against gravity by an external force. We conclude that the proposed decoherence effect is an effect of relative acceleration between quantum system and measurement device, rather than a universal effect in gravitational fields.

@article{toros2017quantum, abstract = {A recent analysis by Pikovski et al. [Nat. Phys. 11, 668 (2015)] has triggered interest in the question of how to include relativistic corrections in the quantum dynamics governing many-particle systems in a gravitational field. Here we show how the center-of-mass motion of a quantum system subject to gravity can be derived more rigorously, addressing the ambiguous definition of relativistic center-of-mass coordinates. We further demonstrate that, contrary to the prediction by Pikovski et al., external forces play a crucial role in the relativistic coupling of internal and external degrees of freedom, resulting in a complete cancellation of the alleged coupling in Earth-bound laboratories for systems supported against gravity by an external force. We conclude that the proposed decoherence effect is an effect of relative acceleration between quantum system and measurement device, rather than a universal effect in gravitational fields.}, added-at = {2017-01-23T14:32:54.000+0100}, author = {Toroš, Marko and Großardt, André and Bassi, Angelo}, biburl = {https://www.bibsonomy.org/bibtex/2832f623b76bc248a149b5451860c809f/aneemany}, interhash = {9d290f9866546970f73c8c350a4129cc}, intrahash = {832f623b76bc248a149b5451860c809f}, keywords = {}, note = {cite arxiv:1701.04298Comment: 21 pages, 2 figures}, timestamp = {2017-01-23T14:32:54.000+0100}, title = {Quantum mechanics for non-inertial observers}, url = {http://arxiv.org/abs/1701.04298}, year = 2017 }