about
Disrupting the wall accumulation of human sperm cells by artificial corrugation.0 and π phase Josephson coupling through an insulating barrier with magnetic impuritiesScanning SQUID microscopy of vortex clusters in multiband superconductorsVortex Core Deformation and Stepper-Motor Ratchet Behavior in a Superconducting Aluminum Film Containing an Array of HolesStable Vortex-Antivortex Molecules in Mesoscopic Superconducting TrianglesMicrowave-stimulated superconductivity due to presence of vorticesPreparation and up-conversion luminescence of 8 nm rare-earth doped fluoride nanoparticles.Spectral interferometric microscopy reveals absorption by individual optical nanoantennas from extinction phase.Plasmon-enhanced sub-wavelength laser ablation: plasmonic nanojets.Local destruction of superconductivity by non-magnetic impurities in mesoscopic iron-based superconductors.Ag nanocluster functionalized glasses for efficient photonic conversion in light sources, solar cells and flexible screen monitors.Rendering dark modes bright by using asymmetric split ring resonators.Nanostripe length dependence of plasmon-induced material deformations.Superconducting Ferromagnetic Nanodiamond.Bosonic Confinement and Coherence in Disordered Nanodiamond Arrays.Nematic superconducting state in iron pnictide superconductors.Size dependence of microscopic Hall sensor detection limits.Revealing Nanostructures through Plasmon Polarimetry.Controlled Generation of Quantized Vortex-Antivortex Pairs in a Superconducting Condensate.Magnetic phase shifter for superconducting qubits.Origin of visible photoluminescence from arrays of vertically arranged Si-nanopillars decorated with Si-nanocrystals.Polarization memory of white luminescence of Ag nanoclusters dispersed in glass host.Preparation and luminescence of bulk oxyfluoride glasses doped with Ag nanoclusters.Cathodo- and photoluminescence in Yb(3+)-Er(3+) co-doped PbF(2) nanoparticles.Influence of swimming strategy on microorganism separation by asymmetric obstacles.Interacting plasmonic nanostructures beyond the quasi-static limit: a "circuit" model.Method for the solution of the nucleation problem in arbitrary mesoscopic superconductors: theory and application.Geometrical guidance and trapping transition of human sperm cells.Vortex entry and nucleation of antivortices in a mesoscopic superconducting triangle.Formation of stripelike flux patterns obtained by freezing kinematic vortices in a superconducting Pb film.Tunable and switchable magnetic dipole patterns in nanostructured superconductors.Increase of charge-carrier redistribution efficiency in a laterally organized superlattice of coupled quantum dotsImpact of the capping layers on lateral confinement in InAs∕InP quantum dots for 1.55μm laser applications studied by magnetophotoluminescenceFast Dynamic Color Switching in Temperature-Responsive Plasmonic FilmsSpin State Crossover, Vibrational, Computational, and Structural Studies of FeII 1-Isopropyl-1H -tetrazole DerivativesMagnetocaloric effect and nature of magnetic transition in nanoscale Pr0.5Ca0.5MnO3Dynamic response of exchange bias in graphene nanoribbonsObservation of PL intensity modulation in self-assembled Quantum Rings (QR) under strong pulsed magnetic fieldsFlux dynamics and critical currents of high Tc tapesExcitonic and free-carrier recombination of a two-dimensional electron gas in high magnetic fields
P50
Q27331507-1618CD14-E5F6-491B-83E0-A0324259DC64Q27336496-136BCFAD-B29A-4F06-87B2-8344474F1E29Q27348039-165BBA8C-7430-4ED9-8E62-9BC8AC7C0204Q27447793-3359DA8D-B825-4247-BC68-2BE71796017EQ27450904-366A9EED-9C9A-4BF4-B697-FB39C9393CC5Q30628306-261F8C0B-06D4-4785-8322-4F94B3D458F0Q33369793-C8A91F4A-9BBE-457E-9FC8-9CDAA9EB65B2Q33587346-E33BD4A4-E45F-4DAA-89D8-C9E3A06CEE58Q34121574-3A2755A0-DE9D-4651-8B98-96E200B8015FQ35863505-0689C326-9CA1-4D04-B2B8-C4C071A9AC68Q38129224-33AF58C0-B46B-4AFF-8D21-5202CA73FA49Q43576576-10931788-8A9F-414E-B0F6-9B0973395306Q46086352-B5928BB9-0585-4240-9735-B7E156907B4CQ46278161-2A273FF2-91BE-458B-ABBF-1D6C8B2AB8F5Q46842039-B9A116B4-47AE-47A3-84A3-1517944C8E79Q47147121-6B3439C6-1790-4675-B9CB-AA3BE23BF5D4Q47175725-E4D391EE-1224-478E-959A-2255286DBA94Q48145489-3762ECBF-4722-48E8-B114-707386FCDC4DQ48150855-FF7F3BBB-F693-45DB-943C-9D20D40B372AQ49248106-68ABA7CC-2075-4959-99D6-BBE0F623300CQ50239685-CBCDDF6F-D203-4A5A-A357-2999AC1D7A3DQ50240427-785BC5E7-3348-4980-BDB4-A9005EC9EB93Q50441372-0972B2BD-0475-4816-A406-6CCE30782934Q50548538-78EC3AAA-8EF5-46BA-BD46-0E17EF7A04A1Q50896347-529D8D29-DE6E-4F3C-99F7-3C3B35CDA480Q51113385-D01AC689-4831-4763-984A-0B7511957174Q51291648-601A1B7C-91B0-49B3-9118-A14A83B48F9AQ51741779-024AB32E-26AC-4832-BCAB-BCB7E133262CQ52068570-178E6D22-51D8-4A9A-8C9F-577D3F30592AQ53066395-6C9F2121-B980-45F4-84A8-320B10850DF2Q55445875-07ADC2D0-CE3F-4295-BA6F-9836E142A780Q57189144-3A0A66A2-E1F5-48B7-A1C8-B2193D0EDED7Q57189165-CE284431-7AA8-4B5D-9197-1C076A806BB9Q57341689-AE703622-F3DF-4206-97EF-FEA9257DD873Q57348788-1F08F778-D994-42AE-B637-F87E5956202DQ57430217-41276EAE-374F-41EB-9AF1-14A5DFE58ED2Q57430255-2477511B-70FD-47A8-9B9A-4CB5A4ED37FBQ57578543-BB6901D6-1BC7-4ABF-97B0-D14AF4B13039Q57669042-B86A2A82-047D-4586-A024-A46518D50BB7Q57944756-349E7BD7-2432-4C75-9776-8273C971630E
P50
description
fisico sovietico
@it
fisikari sobietarra
@eu
físic soviètic
@ca
físico soviético
@es
físico soviético
@gl
físico
@pt
físicu soviéticu
@ast
natuurkundige
@nl
physicien soviétique
@fr
physicist at KU Leuven
@en
name
Victor V. Moshchalkov
@ast
Victor V. Moshchalkov
@en
Victor V. Moshchalkov
@es
Victor V. Moshchalkov
@nl
Виктор В. Мощалков
@ru
type
label
Victor V. Moshchalkov
@ast
Victor V. Moshchalkov
@en
Victor V. Moshchalkov
@es
Victor V. Moshchalkov
@nl
Виктор В. Мощалков
@ru
altLabel
Виктор Мощалков
@ru
Мощалков, Виктор В.
@ru
prefLabel
Victor V. Moshchalkov
@ast
Victor V. Moshchalkov
@en
Victor V. Moshchalkov
@es
Victor V. Moshchalkov
@nl
Виктор В. Мощалков
@ru
P214
P106
P1412
P17
P21
P213
0000 0001 0758 5118
P214
P27
P31
P3762
P496
0000-0002-7458-2942
P7859
lccn-no00077333