about
Dynamic nuclear polarization in InGaAs/GaAs and GaAs/AlGaAs quantum dots under nonresonant ultralow-power optical excitationRevealing the dark side of a bright exciton-polariton condensate.Polariton condensation in solitonic gap states in a one-dimensional periodic potential.All-optical phase modulation in a cavity-polariton Mach-Zehnder interferometer.Scalable high-precision tuning of photonic resonators by resonant cavity-enhanced photoelectrochemical etchingConfined Tamm plasmon lasers.Excitable phase slips in an injection-locked single-mode quantum-dot laser.Bright solid-state sources of indistinguishable single photons.AlGaAs microdisk cavities for second-harmonic generation.Two-photon injection of polaritons in semiconductor microstructures.Second-harmonic generation in AlGaAs microdisks in the telecom range.Semiconductor superlattices: a tool for terahertz acoustics.AlGaAs guided-wave second-harmonic generation at 2.23 μm from a quantum cascade laser.Origin of optical losses in gallium arsenide disk whispering gallery resonators.Interaction-induced hopping phase in driven-dissipative coupled photonic microcavities.Formation and control of Turing patterns in a coherent quantum fluid.High quality factor confined Tamm modes.Enhancement of spontaneous emission in Tamm plasmon structures.Deterministic and electrically tunable bright single-photon source.Coherent manipulation of a solid-state artificial atom with few photons.Macroscopic rotation of photon polarization induced by a single spin.Determination of n-Type Doping Level in Single GaAs Nanowires by Cathodoluminescence.Electrically injected photon-pair source at room temperature.High frequency optomechanical disk resonators in III-V ternary semiconductors.Boson Sampling with Single-Photon Fock States from a Bright Solid-State Source.Acoustic black hole in a stationary hydrodynamic flow of microcavity polaritons.Fractal energy spectrum of a polariton gas in a Fibonacci quasiperiodic potential.Direct observation of Dirac cones and a flatband in a honeycomb lattice for polaritons.Light-Mediated Cascaded Locking of Multiple Nano-Optomechanical Oscillators.Bosonic Condensation and Disorder-Induced Localization in a Flat Band.Polariton-generated intensity squeezing in semiconductor micropillars.Direct Bell states generation on a III-V semiconductor chip at room temperature.Onset and dynamics of vortex-antivortex pairs in polariton optical parametric oscillator superfluids.Ultrabright source of entangled photon pairs.Polariton condensates put in motion.Orbital Edge States in a Photonic Honeycomb Lattice.High frequency GaAs nano-optomechanical disk resonator.Optically probing the fine structure of a single Mn atom in an InAs quantum dot.Polarization properties of second-harmonic generation in AlGaAs optical nanoantennasAuthor Correction: Scalable high-precision tuning of photonic resonators by resonant cavity-enhanced photoelectrochemical etching
P50
Q21708329-6A13F78D-25EC-443A-BAFB-83F0C78F761DQ30431570-1D946C5E-C9FD-41EE-BC8E-3A4034826A3CQ30454560-18453CBE-EA52-41FA-9492-DDD7B728ECF9Q30571983-3381A950-BC5F-4CD2-87A7-0C779B6A7237Q30837086-5700D137-1496-4C0B-95BB-C75813E70A36Q31119624-242D9EFA-8F97-4C61-B1A0-231A21B31307Q33431215-CF15F515-0D24-40D2-9D61-4CB94DDE1890Q34577880-820855DC-B9C9-4C17-BBFA-656E12444B35Q35002934-996030F1-A8B1-4B84-A95B-45520A71A2A7Q35100660-AAD39178-643E-44DF-8B81-03028D691CB6Q35197915-F067EC62-9EC7-467F-9461-3ED75BF1FD65Q35233206-5847A568-19CB-4F15-9C23-E995FFFC646DQ35338225-FF72AF5C-E4A4-4782-8E5E-4044E19557DEQ35773172-45E83497-605B-42FC-9167-F7B6A19F943FQ37017757-FD1099F8-9A3D-4173-88F2-1B12E3F89897Q38878962-3926F5CD-C006-4A86-AD68-C4E5AD68DB14Q41081370-78996310-950C-4081-B0F4-475161DC91F7Q41488401-2A924AE2-D3B7-48F2-889F-DA90C8763B7CQ41958811-38D709FC-CCBE-471F-814C-326AF3CD0863Q42044558-996A40E2-02B4-4473-B4EF-70755FEF0C05Q43161631-CB070F8C-04E6-4105-8ADA-2EA3E0E7B090Q48051581-A2C1F628-01AB-438A-866C-E218BA2FF77CQ48913507-9EA20131-CE60-46B1-AA37-E731B90BB4F7Q50083287-5B8412AB-1000-457C-9C81-77ACD0ADC629Q50916589-83EE7883-70B9-489F-A2A9-DA5EC322F6A4Q50962366-458EE8CD-0320-44F6-92AD-185C43D75D44Q51091982-AFDB64E5-A8A3-4BCF-AEBA-C8E91669F34FQ51096992-DB2318B7-E174-4DCF-9EBE-CC88427F7884Q51443921-C6638911-D693-4669-86AA-24B2B13E0AE1Q51490839-EDAADCF0-81F8-453A-BD21-2A3728088F1DQ51521842-E5DC0A5B-AD52-441B-B778-0E5ED4A18AD5Q51531395-C927B23B-8CA7-4111-BF43-9A8D7E0C0DE8Q51540341-76D893C5-DDBE-487C-A37A-357595591CF0Q51612003-5AC8DAFD-CFEF-4DB1-8878-15AA1E4B80DBQ52599048-6487BE3A-17C3-4C20-ACC7-4466575CF74BQ53403332-DA081394-118C-4677-9C32-5F1CE19CD6E3Q54760515-C7969040-07D6-41B6-86C7-3F20336C004BQ55048298-E5662242-CD7E-4A03-92D1-D877C196D203Q57121941-8FAF2E97-FAD6-4789-B47F-2726180A627EQ58699506-868F3063-611C-4E6E-BF44-7A4AEA77AF54
P50
description
natuurkundige
@nl
physicist at Centre de Nanosciences et de Nanotechnologies
@en
name
A. Lemaitre
@nl
Aristide Lemaitre
@en
Aristide Lemaitre
@es
type
label
A. Lemaitre
@nl
Aristide Lemaitre
@en
Aristide Lemaitre
@es
altLabel
Aristide Lemaître
@en
prefLabel
A. Lemaitre
@nl
Aristide Lemaitre
@en
Aristide Lemaitre
@es
P106
P1153
7006118880
P21
P31
P496
0000-0003-1892-9726