about
Water-dispersible three-dimensional LC-nanoresonatorsLow-threshold quantum-cascade lasers at 3.5 THz (lambda = 85 microm).Spectral behavior of a terahertz quantum-cascade laser.Terahertz semiconductor-heterostructure laser.Finite size effects in surface emitting Terahertz quantum cascade lasers.Terahertz quantum cascade laser as local oscillator in a heterodyne receiver.Surface plasmon photonic structures in terahertz quantum cascade lasers.Distributed feedback ring resonators for vertically emitting terahertz quantum cascade lasers.Differential near-field scanning optical microscopy with THz quantum cascade laser sources.Tuning a distributed feedback laser with a coupled microcavity.High efficiency coupling of Terahertz micro-ring quantum cascade lasers to the low-loss optical modes of hollow metallic waveguides.Phase-locking to a free-space terahertz comb for metrological-grade terahertz lasers.Graphene field-effect transistors as room-temperature terahertz detectors.Terahertz confocal microscopy with a quantum cascade laser source.Photonic quasi-crystal terahertz lasers.THz saturable absorption in turbostratic multilayer graphene on silicon carbide.Far-field characterization of the thermal dynamics in lasing microspheresHyperuniform disordered terahertz quantum cascade laserThermal noise and optomechanical features in the emission of a membrane-coupled compound cavity laser diode.Non-invasive absolute measurement of leaf water content using terahertz quantum cascade lasers.Terahertz saturable absorbers from liquid phase exfoliation of graphite.Universal lineshapes at the crossover between weak and strong critical coupling in Fano-resonant coupled oscillators.Nanometer size field effect transistors for terahertz detectors.Strong opto-electro-mechanical coupling in a silicon photonic crystal cavity.Room-temperature terahertz detectors based on semiconductor nanowire field-effect transistors.Corrigendum: Universal lineshapes at the crossover between weak and strong critical coupling in Fano-resonant coupled oscillators.Se-doping dependence of the transport properties in CBE-grown InAs nanowire field effect transistors.Nanowire-based field effect transistors for terahertz detection and imaging systems.Science and technology roadmap for graphene, related two-dimensional crystals, and hybrid systems.Patterned tungsten disulfide/graphene heterostructures for efficient multifunctional optoelectronic devices.Resonant tuning fork detector for THz radiation.Gate-Tunable Spatial Modulation of Localized Plasmon Resonances.Physics. Marriage of two device concepts.Black Phosphorus Terahertz Photodetectors.Excitonic properties of Zn1-xCdxSe/ZnSe strained quantum wells.Distributed feedback terahertz frequency quantum cascade lasers with dual periodicity gratingsTuning a microcavity-coupled terahertz laserSingle-mode operation of terahertz quantum cascade lasers with distributed feedback resonatorsTerahertz quantum cascade lasersTerahertz quantum-cascade lasers based on an interlaced photon-phonon cascade
P50
Q28542536-F8A67444-23DC-40D8-B3BE-D42A3783E9A1Q30940156-F14C79FB-849D-4539-A486-0E72781656C8Q30970264-4CA96CEA-4217-457C-9DAB-EF8021BDAC34Q31051740-17F9E273-CC16-4D72-9FB4-6445E7E79A8AQ33429922-F0756B39-535F-4E16-B8EA-8881534ADDEEQ33461156-C806B617-6605-4909-BC5E-DFC6B7EF7909Q33465856-C7DFA531-B232-415D-A1B5-D154AECA5959Q33490478-F368F5D2-41B9-4FDF-ABC3-FBCBDAC98365Q33522115-5F8E8DC4-313F-42BA-9D81-14A9388ED498Q33716114-7D6CC840-DBD1-4932-AB40-C889AFADD1F1Q33802363-9973D884-7F8A-47B5-890A-F78636F3B65AQ34403267-3F2F781F-91C0-40C2-9F18-0470116B5CBEQ34409362-16762D4D-EB6A-46F0-A7DD-74EB8A0E4964Q34434165-6EA08E04-2F79-447E-9D31-6C4B52173B28Q35530068-9DC15C4F-76AF-4892-882B-AD3B95814171Q35630035-2B67F562-79AC-402A-831C-2EEF4CAC1121Q35784331-343F737E-FF08-4981-A70A-A8D76703EA6EQ35892250-CB2D31B8-F071-4182-B43E-537447882420Q36107393-F475F9A9-66C6-496B-9F5A-CCA09C2325A0Q36411901-65D74BAC-0F1E-4C2E-A0EA-E8728C392FD6Q36413199-8AC8D5C2-A07B-4FF6-A4F5-18CE534BC88BQ36811819-56877479-2028-4E96-889F-E2707AE93C35Q38101755-14FDFAB0-D42D-4CCA-82DE-BC93BD4A576BQ38415482-3BDC15E3-364C-421F-9076-4324724EA059Q39678185-6DEB67D0-7A28-456A-9229-3079BAF0B943Q41811352-FFB722B2-9447-41F3-8661-BB7DE5AFE141Q41926616-1CB407C5-B491-4C11-8FF7-76E434FC3D81Q44514684-C657BB1B-6BFE-4401-8744-B4F32EE7D057Q48589857-4F5771AE-9334-42ED-88A4-69ABD394EE61Q50006444-E15CA9C4-BB88-4FE7-BAB8-1D264E5C27EEQ50586488-229A7947-85D4-4FD9-BD45-E83A6362125BQ51221960-99E86DA3-5894-4FDD-9663-7D1DCF8C72E0Q51794887-38ED9FA9-5775-4CB3-9E9D-52103BB9D80CQ51810441-94E193AD-74DF-4A1F-BCC6-F0E338FA29D1Q54139447-C5878487-C201-49AD-9881-C29719E66024Q56828734-AE93C705-ED7B-4D63-940D-DDC4F3E8F4E8Q56828766-C61FC29C-F1A1-41F9-95B4-18EF00D12C5DQ56829240-B6B8B5CF-0682-482E-B7CF-1D5C8A3E089FQ56829249-A4F7300F-9038-44DA-8620-9811047E4AF6Q56829252-9A1851E8-71B5-4188-B023-1657661FDEDE
P50
description
fisico
@it
natuurkundige
@nl
physicist
@en
name
Alessandro Tredicucci
@ast
Alessandro Tredicucci
@en
Alessandro Tredicucci
@es
Alessandro Tredicucci
@it
Alessandro Tredicucci
@nl
Alessandro Tredicucci
@sl
type
label
Alessandro Tredicucci
@ast
Alessandro Tredicucci
@en
Alessandro Tredicucci
@es
Alessandro Tredicucci
@it
Alessandro Tredicucci
@nl
Alessandro Tredicucci
@sl
prefLabel
Alessandro Tredicucci
@ast
Alessandro Tredicucci
@en
Alessandro Tredicucci
@es
Alessandro Tredicucci
@it
Alessandro Tredicucci
@nl
Alessandro Tredicucci
@sl
P1053
M-6166-2015
P106
P1153
35414413900
P166
P21
P31
P3829
P496
0000-0003-3619-3011