about
Single-Photon Transistor Using a Förster ResonanceOptical π phase shift created with a single-photon pulseAdiabatic following in standing-wave diffraction of atomsOrigin of quantum-mechanical complementarity probed by a ‘which-way’ experiment in an atom interferometerA photon–photon quantum gate based on Rydberg interactionsControl of a magnetic Feshbach resonance with laser lightComplementarity and quantum erasure in an atom interferometerWave-Particle Duality in an Atom InterferometerAcceptance angle for Bragg reflection of atoms from a standing light waveCharacterization of elastic scattering near a Feshbach resonance in 87RbFeshbach spectroscopy of a shape resonanceDissociation of Feshbach molecules into different partial wavesCombination of a magnetic Feshbach resonance and an optical bound-to-bound transitionBose-Einstein condensate as a quantum memory for a photonic polarization qubitBreakdown of atomic hyperfine coupling in a deep optical-dipole trapIncreased dimensionality of Raman cooling in a slightly nonorthogonal optical latticeCoherent Logic Gate for Light Pulses Based on Storage in a Bose-Einstein CondensateSingle-Photon Switch Based on Rydberg BlockadeObservation of Molecules Produced from a Bose-Einstein CondensateCan wave–particle duality be based on the uncertainty relation?Preparation of a quantum state with one molecule at each site of an optical latticeStanding wave diffraction with a beam of slow atomsPendellösung oscillations in second-order Bragg scattering of atoms from a standing light waveDissipation-induced hard-core boson gas in an optical latticeDissociation of ultracold molecules with Feshbach resonancesCollisional decay of 87Rb Feshbach molecules at 1005.8 GCollisional relaxation of Feshbach molecules and three-body recombination inRb87Bose-Einstein condensatesLieb-Liniger model of a dissipation-induced Tonks-Girardeau gasRemote Entanglement between a Single Atom and a Bose-Einstein CondensateFringe Visibility and Which-Way Information in an Atom InterferometerFeshbach Resonances in Rubidium 87: Precision Measurement and AnalysisAtom-Molecule Rabi Oscillations in a Mott InsulatorStrong Dissipation Inhibits Losses and Induces Correlations in Cold Molecular GasesBragg scattering of slow atoms from a standing light waveInfluence of static electric fields on an optical ion trapLocal phase damping of single qubits sets an upper bound on the phase damping rate of entangled statesLocalization of Cold Atoms in State-Dependent Optical Lattices via a Rabi Pulserf-induced Sisyphus cooling in an optical dipole trapQuantitative wave-particle duality in multibeam interferometersImproved loading of an optical dipole trap by suppression of radiative escape
P50
Q27450084-08713c0c-4f97-f9fc-8f9a-d68d6e995f73Q39625256-d5eee820-4349-7f12-8627-0a09a14c18a5Q59060834-B56577F5-EB15-4130-A90F-C0F9C0FE5121Q59090133-D6AEC609-D9C1-43A8-A687-8ECF99CB41F4Q59384685-EE847096-3A6B-4E60-AE1F-1A348F7F5CCFQ59384686-84ADF0D3-260E-4FD8-AD9C-470F5E7CCD0BQ59385039-7D1EAAF2-E023-4604-B88A-3D8E78587627Q59385042-C6081866-BA20-432F-AAC6-8A4F0F432728Q59385050-43677532-2E85-4DA0-8285-0F5552584C9AQ59385051-CFA9FE2B-7BC2-4EE1-A702-3CDA0ADD3189Q59385053-B1E457F5-054A-40AB-93B2-16318B1197A5Q59385054-96D9010B-FBB2-4A71-85B0-4C2C2D4D979AQ59385055-E90756D4-BA8A-483B-A5A1-58D6743B0F55Q59385056-F263C6AF-F6CD-49DF-8C24-5B0F327BB6DDQ59385057-08815F8D-7BDC-4E03-A471-FE87BFDEE3E6Q59385058-45244981-B4A6-4732-904C-F5B2CA1F8E05Q59385059-81CA876C-6492-4657-B448-56F06DCB8152Q59385060-C8E02BE3-4A65-4199-BF21-96E7C084B474Q59385064-A2F64ADB-696D-4C61-AF52-26D37267597DQ59385071-95957AFA-02E8-4C82-8C1A-709160568230Q59399478-DA614482-4E57-4ABD-9291-C8CAAB2C071BQ59399491-B149FA83-0B8F-4BB5-A8EA-A26A37661338Q59399495-B7EC9FEE-FC43-4068-B5AF-9C069F1B4F41Q59399498-8BEC53C8-848C-4B06-9017-F3295B311013Q59399511-F01FC9D7-E7FA-40B9-8CE2-9E2C7DAD705EQ59399516-0C2634F8-CFB1-4120-AB0A-A88C4810EA13Q59399517-DAEF036A-BDB4-44A6-98C4-D6CA2B4E84CBQ59399520-95DCDA86-DB8B-4197-84B2-A98EEE8CE85AQ59399530-41A61094-C4EA-419E-A644-4706565A2DA3Q59399550-D87C2892-F166-40F3-A230-FC6345C8A0F7Q59399561-495031B6-3125-4098-A3A0-8F6285839EB3Q59399569-4B861A67-57D3-4B40-AC85-481BF6BF6082Q59399573-7FA8615D-09D7-4FBF-8AA1-77E0CC066051Q59399582-DCD183DF-0E1D-4E1F-B280-C74E3ACA5212Q59439858-C662BF37-530B-4737-B2F1-23226A710091Q59439860-420E4279-6EE4-42A2-BE1C-5141E33FE617Q59439861-758C6636-9A4F-4D97-A379-B2BCAEF8DBE7Q59439862-5E9EFE50-0B6C-4A47-B926-DADAF246EBB8Q59439863-1CB06653-E1C6-4340-97F9-64FD4FF6F7F5Q59439864-42F3E654-2C78-491E-97FD-BBBD59DCDEB0
P50
description
Deutscher Physiker
@de
Duits natuurkundige
@nl
German physicist
@en
Saksamaa füüsik
@et
fisico tedesco
@it
fisikari alemaniarra
@eu
fizician german
@ro
fizikan gjerman
@sq
físic alemany
@ca
físico alemán
@es
name
Stephan Dürr
@ast
Stephan Dürr
@ca
Stephan Dürr
@de
Stephan Dürr
@en
Stephan Dürr
@es
Stephan Dürr
@fr
Stephan Dürr
@nl
Stephan Dürr
@sl
type
label
Stephan Dürr
@ast
Stephan Dürr
@ca
Stephan Dürr
@de
Stephan Dürr
@en
Stephan Dürr
@es
Stephan Dürr
@fr
Stephan Dürr
@nl
Stephan Dürr
@sl
altLabel
S. Dürr
@de
S. Dürr
@en
Stephan Duerr
@de
Stephan Duerr
@en
Stephan Durr
@en
prefLabel
Stephan Dürr
@ast
Stephan Dürr
@ca
Stephan Dürr
@de
Stephan Dürr
@en
Stephan Dürr
@es
Stephan Dürr
@fr
Stephan Dürr
@nl
Stephan Dürr
@sl
P2650
P227
P1053
C-3760-2017
P106
P1153
57197278112
P21
P214
52145424149486790798
P227
1081695676
P31
P3829
P4594
P496
0000-0003-0811-6211
P512
P734
P735
P7671
P7859
viaf-52145424149486790798