Roadmap on quantum light spectroscopy

Autor: Frank Schlawin, Alessandro Zavatta, Elena del Valle, Vahid Sandoghdar, Bao-Sen Shi, Marco Barbieri, Alexei V. Sokolov, Anna V. Paterova, Christine Silberhorn, Sharon Shwartz, Wolfgang P. Schleich, Shahaf Asban, Fabrice P. Laussy, Ivan A. Vartanyants, André Stefanov, Leonid A. Krivitsky, M. Suhail Zubairy, Matthias Freyberger, Konstantin E. Dorfman, Oleg Varnavski, Girish S. Agarwal, Marco Bellini, Theodore Goodson, Tao Peng, Zhi-Yuan Zhou, Kenji Tamasaku, Luis L. Sánchez-Soto, Shaul Mukamel, Marlan O. Scully, Andrew H. Marcus, Zhedong Zhang, Robert W. Boyd, Michael G. Raymer, Gerd Leuchs
Přispěvatelé: Mukamel, Shaul, Freyberger, Matthia, Schleich, Wolfgang, Bellini, Marco, Zavatta, Alessandro, Leuchs, Gerd, Silberhorn, Christine, Boyd, Robert W, Sánchez-Soto, Luis Lorenzo, Stefanov, André, Barbieri, Marco, Paterova, Anna, Krivitsky, Leonid, Shwartz, Sharon, Tamasaku, Kenji, Dorfman, Konstantin, Schlawin, Frank, Sandoghdar, Vahid, Raymer, Michael, Marcus, Andrew, Varnavski, Oleg, Goodson, Theodore, Zhou, Zhi-Yuan, Shi, Bao-Sen, Asban, Shahaf, Scully, Marlan, Agarwal, Girish, Peng, Tao, Sokolov, Alexei V, Zhang, Zhe-Dong, Zubairy, M Suhail, Vartanyants, Ivan A, del Valle, Elena, Laussy, Fabrice
Rok vydání: 2020
Předmět:
Zdroj: Journal of physics. B, Atomic molecular and optical physics
53 (2020). doi:10.1088/1361-6455/ab69a8
info:cnr-pdr/source/autori:Mukamel, Shaul; Freyberger, Matthias; Schleich, Wolfgang; Bellini, Marco; Zavatta, Alessandro; Leuchs, Gerd; Silberhorn, Christine; Boyd, Robert W.; Sánchez-Soto, Luis Lorenzo; Stefanov, André; Barbieri, Marco; Paterova, Anna; Krivitsky, Leonid; Shwartz, Sharon; Tamasaku, Kenji; Dorfman, Konstantin; Schlawin, Frank; Sandoghdar, Vahid; Raymer, Michael; Marcus, Andrew; Varnavski, Oleg; Goodson, Theodore; Zhou, Zhi Yuan; Shi, Bao Sen; Asban, Shahaf; Scully, Marlan; Agarwal, Girish; Peng, Tao; Sokolov, Alexei V.; Zhang, Zhe Dong; Zubairy, M. Suhail; Vartanyants, Ivan A.; Del Valle, Elena; Laussy, Fabrice/titolo:Roadmap on quantum light spectroscopy/doi:10.1088%2F1361-6455%2Fab69a8/rivista:Journal of physics. B, Atomic molecular and optical physics (Print)/anno:2020/pagina_da:/pagina_a:/intervallo_pagine:/volume:53
E-Prints Complutense: Archivo Institucional de la UCM
Universidad Complutense de Madrid
Journal of physics / B 53(7), 072002 (2020). doi:10.1088/1361-6455/ab69a8
E-Prints Complutense. Archivo Institucional de la UCM
instname
ISSN: 1361-6455
0953-4075
DOI: 10.1088/1361-6455/ab69a8
Popis: Journal of physics / B 53(7), 072002 (2020). doi:10.1088/1361-6455/ab69a8
Conventional spectroscopy uses classical light to detect matter properties through the variation of its response with frequencies or time delays. Quantum light opens up new avenues for spectroscopy by utilizing parameters of the quantum state of light as novel control knobs and through the variation of photon statistics by coupling to matter. This Roadmap article focuses on using quantum light as a powerful sensing and spectroscopic tool to reveal novel information about complex molecules that is not accessible by classical light. It aims at bridging the quantum optics and spectroscopy communities which normally have opposite goals: manipulating complex light states with simple matter e.g. qubits versus studying complex molecules with simple classical light, respectively. Articles cover advances in the generation and manipulation of state-of-the-art quantum light sources along with applications to sensing, spectroscopy, imaging and interferometry.
Published by IOP Publ., Bristol
Databáze: OpenAIRE
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