Internally funded project
Measurement-induced entanglement of light and matter



Contributing FAU Organisations:

Project Details
Start date: 01/01/2007

Abstract (technical / expert description):

We study methods for the generation of various entangled states, encoded in the polarization, position, momentum or orbital-angular momentum degrees of freedom of photons or atoms within the same experimental setup. Starting with uncorrelated particles and using linear optical detection tools only, we investigate the creation of entire entanglement classes like the GHZ- and W-family.


Publications

Journal article
Bhatti D, von Zanthier J, Agarwal GS (2015)
Entanglement of polarization and orbital angular momentum
Physical Review A

Journal article
Ammon C, Maser A, Schilling U, et al. (2012)
Simulating the coupling of angular momenta in distant matter qubits
Physical Review A

Journal article
Maser A, Wiegner R, Schilling U, et al. (2010)
Versatile source of polarization-entangled photons
Physical Review A

Journal article
Schilling U, von Zanthier J, Agarwal GS (2010)
Measuring arbitrary-order coherences: Tomography of single-mode multiphoton polarization-entangled states
Physical Review A

Journal article
Schilling U, Thiel C, Solano E, et al. (2009)
Heralded entanglement of arbitrary degree in remote qubits
Physical Review A

Journal article
Maser A, Schilling U, Bastin T, et al. (2009)
Generation of total angular momentum eigenstates in remote qubits
Physical Review A

Journal article
Bastin T, Thiel C, von Zanthier J, et al. (2009)
Operational Determination of Multiqubit Entanglement Classes via Tuning of Local Operations
Physical Review Letters

Journal article
Thiel C, von Zanthier J, Bastin T, et al. (2007)
Generation of symmetric dicke states of remote qubits with linear optics
Physical Review Letters

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