Fresh look at the effects of gravitational tidal forces on a freely-falling quantum particle

Abstract: In this paper, we take a closer and new look at the effects of tidal forces on the free fall of a quantum particle inside a spherically symmetric gravitational field. We derive the corresponding Schrödinger equation for the particle by starting from the fully relativistic Klein–Gordon equation in order (i) to briefly discuss the issue of the equivalence principle and (ii) to be able to compare the relativistic terms in the equation to the tidal-force terms. To the second order of the nonrelativistic approximat… Show more

“…The results from those works rely on the equivalence principle at the quantum level [19,20], which finds thus a very interesting application among many others reported in the literature within and outside of condensed matter physics (see, e.g., Refs. [21][22][23][24][25][26][27][28][29] and references therein).…”

The Quantum Hall Effect under the Influence of Gravity and Inertia: A Unified Approach

“…The results from those works rely on the equivalence principle at the quantum level [19,20], which finds thus a very interesting application among many others reported in the literature within and outside of condensed matter physics (see, e.g., Refs. [21][22][23][24][25][26][27][28][29] and references therein).…”

The Quantum Hall Effect under the Influence of Gravity and Inertia: A Unified Approach