UCSD - University of California - San Diego
10/09/2025 | Press release | Distributed by Public on 10/09/2025 09:55
Advancing Quantum Photonic Technologies
Published Date
October 09, 2025Article Content
When optical materials (molecules or solid-state semiconductors) are embedded in tiny photonic boxes, known as optical microcavities, they form hybrid light-matter states known as polaritons. Most of the optical properties of polaritons under weak illumination can be understood using textbook classical optics. Now researchers from UC San Diego show that this is not the entire story: there are quantum fluctuations lurking underneath the classical signal and they reveal a great deal about the molecules in question.
Schematic illustrating the transmission, absorption and reflection of photons in a cavity.
Their work redefines the foundations of polaritonics by demonstrating that the optical spectra of these light-matter hybrids, long described by classical optics, in fact bears subtle quantum fingerprints. Exploiting these signatures allows polaritons to act as sensitive probes of their host materials, opening new directions for polaritonic control, precision sensing, and quantum photonic technologies. Beyond optics, these hidden quantum effects further suggest novel avenues for steering chemical reactivity and advancing polaritonic chemistry.
The study published XXin Optica and was led by Arghadip Koner and Joel Yuen-Zhou. Their research was funded by the Department of Energy, Office of Science, Basic Energy Sciences, CPIMS Program (DE-SC0019188).
Read the study in Optica: "Hidden nonlinear optical susceptibilities in linear polaritonic spectra."
Our work uncovers hidden quantum fingerprints in polaritonic spectra and unlocks a new paradigm for probing and controlling matter by harnessing the quantum vacuum of the cavity. Professor of Chemistry Joel Yuen-Zhou
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