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Manipulating matter by strong coupling to vacuum fields

F. J. García‐Vidal, Cristiano Ciuti, Thomas W. Ebbesen

2021Science660 citationsDOI

Abstract

Over the past decade, there has been a surge of interest in the ability of hybrid light-matter states to control the properties of matter and chemical reactivity. Such hybrid states can be generated by simply placing a material in the spatially confined electromagnetic field of an optical resonator, such as that provided by two parallel mirrors. This occurs even in the dark because it is electromagnetic fluctuations of the cavity (the vacuum field) that strongly couple with the material. Experimental and theoretical studies have shown that the mere presence of these hybrid states can enhance properties such as transport, magnetism, and superconductivity and modify (bio)chemical reactivity. This emerging field is highly multidisciplinary, and much of its potential has yet to be explored.

Topics & Concepts

Coupling (piping)PhysicsElectromagnetic fieldField (mathematics)LaserState of matterCharge (physics)Condensed matter physicsChemical physicsQuantum mechanicsMaterials scienceMetallurgyPure mathematicsMathematicsStrong Light-Matter InteractionsQuantum and electron transport phenomenaCold Atom Physics and Bose-Einstein Condensates
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