Microcavity exciton polaritons at room temperature
The quest for realizing novel fundamental physical effects and practical applications in
ambient conditions has led to tremendous interest in microcavity exciton polaritons working …
ambient conditions has led to tremendous interest in microcavity exciton polaritons working …
[HTML][HTML] Embrace the darkness: An experimental perspective on organic exciton–polaritons
Organic polaritonics has emerged as a captivating interdisciplinary field that marries the
complexities of organic photophysics with the fundamental principles of quantum optics. By …
complexities of organic photophysics with the fundamental principles of quantum optics. By …
Prospects in Broadening the Application of Planar Solution‐Based Distributed Bragg Reflectors
E Palo, KS Daskalakis - Advanced Materials Interfaces, 2023 - Wiley Online Library
Abstract Distributed Bragg reflectors (DBRs) are primarily used in lasers and
telecommunications. Liquid film deposition of DBRs holds great promise for expanding their …
telecommunications. Liquid film deposition of DBRs holds great promise for expanding their …
Chiral flat-band optical cavity with atomically thin mirrors
A fundamental requirement for photonic technologies is the ability to control the confinement
and propagation of light. Widely used platforms include two-dimensional (2D) optical …
and propagation of light. Widely used platforms include two-dimensional (2D) optical …
Developing solution-processed distributed bragg reflectors for microcavity polariton applications
E Palo, MA Papachatzakis, A Abdelmagid… - The Journal of …, 2023 - ACS Publications
Improving the performance of organic optoelectronics has been under vigorous research for
decades. Recently, polaritonics has been introduced as a technology that has the potential …
decades. Recently, polaritonics has been introduced as a technology that has the potential …
Polariton condensation in a microcavity using a highly-stable molecular dye
We have fabricated dielectric microcavities containing the molecular dye 1, 4-bis [2-[4-[N, N-
di (p-tolyl) amino] phenyl] vinyl] benzene (DPAVB) dispersed in a transparent polymer …
di (p-tolyl) amino] phenyl] vinyl] benzene (DPAVB) dispersed in a transparent polymer …
Thermalization rate of polaritons in strongly-coupled molecular systems
EA Tereshchenkov, IV Panyukov, M Misko… - …, 2024 - degruyter.com
Polariton thermalization is a key process in achieving light–matter Bose–Einstein
condensation, spanning from solid-state semiconductor microcavities at cryogenic …
condensation, spanning from solid-state semiconductor microcavities at cryogenic …
Thermalization of fluorescent protein exciton–polaritons at room temperature
Fluorescent proteins (FPs) have recently emerged as a serious contender for realizing
ultralow threshold room temperature exciton–polariton condensation and lasing. This …
ultralow threshold room temperature exciton–polariton condensation and lasing. This …
Simple and Versatile Platforms for Manipulating Light with Matter: Strong Light–Matter Coupling in Fully Solution‐Processed Optical Microcavities
A Strang, V Quirós‐Cordero, P Grégoire… - Advanced …, 2024 - Wiley Online Library
Planar microcavities with strong light–matter coupling, monolithically processed fully from
solution, consisting of two polymer‐based distributed Bragg reflectors (DBRs) comprising …
solution, consisting of two polymer‐based distributed Bragg reflectors (DBRs) comprising …
Ultrafast optical control of polariton energy in an organic semiconductor microcavity
KE McGhee, M Guizzardi… - Advanced Optical …, 2023 - Wiley Online Library
The manipulation of exciton–polaritons and their condensates is of great interest due to their
applications in polariton simulators and high‐speed, all‐optical logic devices. Until now …
applications in polariton simulators and high‐speed, all‐optical logic devices. Until now …