Quantum and critical Casimir effects bridging fluctuation physics and nanotechnology

Open Access
Authors
Publication date 21-06-2025
Journal Nanoscale
Volume | Issue number 17 | 23
Pages (from-to) 13982-13997
Number of pages 16
Organisations
  • Faculty of Science (FNWI) - Institute of Physics (IoP) - Van der Waals-Zeeman Institute (WZI)
Abstract

Fluctuation-induced forces, primarily represented by quantum and critical Casimir effects, play a pivotal role at the nanoscale. This review explores the theoretical and experimental landscapes of these forces, offering a comprehensive analysis of their similarities and distinctions. We emphasize the effects of material properties, geometry, and temperature in shaping these forces and their roles in various nanoscale systems, both colloidal and solid-state. We devote special attention to the Casimir torque, the influence of magnetism on the Casimir force, and the use of Casimir effects for the generation of optical resonators. Through this comparative study, we elucidate the underlying physics of these phenomena, fostering insights that advance applications in nanomechanics, optomechanics, and quantum technologies.

Document type Review article
Note Publisher Copyright:
© 2025 The Royal Society of Chemistry.
Language English
Published at https://doi.org/10.1039/d5nr01288k
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