Quantum Droplets in Curved Space
Antonino Flachi, Takahiro Tanaka
TL;DR
This paper explores how curved spacetime influences the formation and properties of quantum droplets, revealing curvature-driven effects that could be observed experimentally in microgravity environments.
Contribution
It introduces a new class of curvature-induced quantum effects that enable the formation of quasistable quantum droplets in curved space.
Findings
Curvature significantly affects quantum droplet formation.
Identification of a novel class of curvature-driven quantum effects.
Potential for experimental observation in microgravity environments.
Abstract
This Letter investigates the formation of quantum droplets in curved spacetime, highlighting the significant influence of curvature on the formation and properties of these objects. While our computations encompass various dimensions, we primarily focus on two dimensions. Our findings reveal a novel class of curvature-driven quantum effects leading to the formation of quasistable liquid droplets, suggesting a feasible pathway for experimental observation, particularly in microgravity environments.
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Taxonomy
TopicsQuantum Electrodynamics and Casimir Effect · Black Holes and Theoretical Physics · Fluid dynamics and aerodynamics studies