about
Quantum electromechanics on silicon nitride nanomembranes.Strong opto-electro-mechanical coupling in a silicon photonic crystal cavity.Mechanical on-chip microwave circulator.Climbing the Jaynes-Cummings ladder and observing its nonlinearity in a cavity QED system.Experimental realization of non-Abelian non-adiabatic geometric gates.Observation of Resonant Photon Blockade at Microwave Frequencies Using Correlation Function MeasurementsCollective Suppression of Linewidths in Circuit QEDMicrowave Quantum States Beat the HeatTomography schemes for characterizing itinerant microwave photon fieldsGeometric Phase and Nonadiabatic Effects in an Electronic Harmonic OscillatorObservation of Entanglement between Itinerant Microwave Photons and a Superconducting QubitExperimental State Tomography of Itinerant Single Microwave PhotonsObservation of Two-Mode Squeezing in the Microwave Frequency DomainCavity Quantum Electrodynamics with Separate Photon Storage and Qubit Readout ModesControl and Tomography of a Three Level Superconducting Artificial AtomQuantum-To-Classical Transition in Cavity Quantum ElectrodynamicsDressed Collective Qubit States and the Tavis-Cummings Model in Circuit QEDMeasurement of Autler-Townes and Mollow Transitions in a Strongly Driven Superconducting QubitTwo-Qubit State Tomography Using a Joint Dispersive ReadoutResolving Vacuum Fluctuations in an Electrical Circuit by Measuring the Lamb ShiftObservation of Berry's Phase in a Solid-State QubitQuantum electromechanics of a hypersonic crystalMicrowave quantum illumination using a digital receiver
P50
Q30376197-1613EB87-6117-48C7-AAE4-C49C2C4C44B8Q38415482-47F11106-852E-49A0-A599-17005366CEDAQ42378928-C3ED8320-142D-4886-B245-C448845A83EAQ51572117-F4EE83AC-8F70-4430-86BA-178CA332490AQ51597099-B415A487-8AF8-4469-A34E-1DB7931A8214Q59450200-C1620032-6769-47F8-B78C-8741CDE82DD1Q59456112-DE2D9CCC-6131-4585-856D-FDA9D7C7346BQ59960492-83C78EE3-BA2E-4D25-9543-9EFC692CC1C5Q59960521-B3D8C9BF-7785-4157-B89C-D774A9B4D4F4Q59960533-B9C3AB7E-104F-4C50-BF1C-1A8BA8B5845DQ59960542-96B84B91-5500-420A-965E-87987595B1A3Q59960549-EA89ABDE-BE3E-46CA-80DF-657513FC0ABAQ59960565-6E427452-F5D2-49A9-80A8-051A5BAC4D08Q59960571-D334ED4F-817E-49DC-B96F-E6F5002EFC46Q59960578-7DB92AEF-8D2D-425F-A803-41A0455FABC9Q59960582-582EA03C-323B-458F-8B2B-B304DFC16284Q59960587-9F35E44D-17C0-43C8-ACBB-2ECFB7062DD2Q59960595-06B3695E-0ADF-40E9-8E80-A699F257F76AQ59960605-D2DBA0B2-9D77-4654-ADE9-61B2FD125F42Q59960617-5B362128-E757-4064-8BBE-E7CC30F6BF1CQ59960622-69E41904-CBAB-4038-920B-6E7BC14AA649Q91691789-603BCC79-EAE2-4FB0-AD98-7336C383A45AQ96435700-E03C563A-7475-4521-9386-AE4CC707F009
P50
description
researcher ORCID ID = 0000-0001-8112-028X
@en
wetenschapper
@nl
name
Johannes M Fink
@ast
Johannes M Fink
@en
Johannes M Fink
@nl
type
label
Johannes M Fink
@ast
Johannes M Fink
@en
Johannes M Fink
@nl
prefLabel
Johannes M Fink
@ast
Johannes M Fink
@en
Johannes M Fink
@nl
P106
P31
P496
0000-0001-8112-028X