Speaker
Description
Quantum gravity remains one of the major challenges in modern physics. Even at the most fundamental level, there is no experimental confirmation of whether a mass placed in a spatial superposition generates a corresponding superposition of gravitational fields. In recent years, experiments aiming to create gravity-induced quantum entanglement have attracted significant attention as a way to probe the quantum nature of non-relativistic gravity. In particular, optomechanical systems, which exploit the interaction between light and mechanical oscillators, provide a promising platform for such studies. We are pursuing experiments at the milligram scale, which lies between the smallest mass scale at which classical gravity has been tested and the largest mass scale at which quantum states of mechanical oscillators have been realized [1]. In this talk, I will discuss experimental approaches to testing the quantum nature of gravity using levitated mirrors. I will also discuss our recent proposal to use inverted oscillators to enhance gravity-induced entanglement exponentially [2].
[1] Yuta Michimura, Kentaro Komori, The European Physical Journal D 74, 126 (2020)
[2] Tomohiro Fujita, Youka Kaku, Akira Matsumura, Yuta Michimura, Classical and Quantum Gravity 42, 165003 (2025)