Quantum Correlations of Light and Matter: Quantification and Application (B12, Subproject of SFB 652: Strong Correlations and Collective Effects in Radiation Fields: Coulomb Systems, Clusters and Particles)

Overview

In this project, methods for the identification of quantum correlations of fermionic, bosonic and many-party systems will be developed. To this end, a universal quantification of entanglement and nonclassicality will be introduced for arbitrary spatially and temporally dependent systems. Operational measures will be constructed that characterize the useful quantum correlations of states and processes, including losses and noise. The goal is to devise an identification method of many-party correlations through phase space distributions.

DFG Programme Collaborative Research Centres

Subproject of SFB 652: Strong Correlations and Collective Effects in Radiation Fields: Coulomb Systems, Clusters and Particles

Applicant Institution Universit?t Rostock

Key Facts

Grant Number:
5486320
Research profile area:
Optoelectronics and Photonics
Project type:
Research
Project duration:
01/2013 - 12/2017
Funded by:
DFG
Website:
DFG-Datenbank gepris

More Information

Principal Investigators

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Prof. Dr. Jan Sperling

Theoretical Quantum Science

About the person
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Werner Vogel

Universit?t Rostock

Cooperating Institutions

Universit?t Rostock

Cooperating Institution

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