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Photo-acoustic spectroscopy revealing resonant absorption of self-assembled GaAs-based nanowires.Magnetotransport study on as-grown and annealed n- and p-type modulation-doped GaInNAs/GaAs strained quantum well structuresPicosecond passively mode-locked GaSb-based semiconductor disk laser operating at 2 μm.Stable single- and dual-wavelength fiber laser mode locked and spectrum shaped by a Fabry-Perot saturable absorber.Subpicosecond thin-disk laser oscillator with pulse energies of up to 25.9 microjoules by use of an active multipass geometry.1-W antimonide-based vertical external cavity surface emitting laser operating at 2-microm.Harmonically mode-locked VECSELs for multi-GHz pulse train generation.High power frequency doubled GaInNAs semiconductor disk laser emitting at 615 nm.2.7 W tunable orange-red GaInNAs semiconductor disk laser.11 W single gain-chip dilute nitride disk laser emitting around 1180 nm.Optically-pumped dilute nitride spin-VCSEL.Lateral Ordering of InAs Quantum Dots on Cross-hatch Patterned GaInP.Mode-locking of 2 μm Tm,Ho:YAG laser with GaInAs and GaSb-based SESAMs.Mode-locked VECSEL emitting 5 ps pulses at 675 nm.High-efficiency 20 W yellow VECSEL.SESAM mode-locked red praseodymium laser.GaSb-based SESAM mode-locked Tm:YAG ceramic laser at 2 µm.Mode-locked Tm,Ho:KLu(WO(4))(2) laser at 2060 nm using InGaSb-based SESAMs.615 nm GaInNAs VECSEL with output power above 10 W.High-power temperature-stable GaInNAs distributed Bragg reflector laser emitting at 1180 nm.Broadly tunable mode-locked Ho:YAG ceramic laser around 2.1 µm.Frequency-doubled passively Q-switched microchip laser producing 225 ps pulses at 671 nm.Diode-pumped mode-locked Tm:LuAG laser at 2 μm based on GaSb-SESAM.33 W continuous output power semiconductor disk laser emitting at 1275 nm.Thulium doped LuAG ceramics for passively mode locked lasers.The influence of temperature on the photoluminescence properties of single InAs quantum dots grown on patterned GaAs.Dynamics of time-resolved photoluminescence in GaInNAs and GaNAsSb solar cellsSub-Poissonian Narrowing of Length Distributions Realized in Ga-Catalyzed GaAs Nanowires.Ultrahigh precision nonlinear reflectivity measurement system for saturable absorber mirrors with self-referenced fluence characterization.An analysis of Hall mobility in as-grown and annealed n- and p-type modulation-doped GaInNAs/GaAs quantum wells.Field Emission from Self-Catalyzed GaAs Nanowires.The Role of Groove Periodicity in the Formation of Site-Controlled Quantum Dot Chains.Optical gain in 1.3-μm electrically driven dilute nitride VCSOAsPerformance assessment of multijunction solar cells incorporating GaInNAsSb.Structural Investigation of Uniform Ensembles of Self-Catalyzed GaAs Nanowires Fabricated by a Lithography-Free Technique.Dilute nitride and GaAs n-i-p-i solar cells.Size-dependent properties of single InAs quantum dots grown in nanoimprint lithography patterned GaAs pits.1.4 µm continuous-wave diamond Raman laser.Sub-50 ps pulses at 620 nm obtained from frequency doubled 1240 nm diamond Raman laser.87 fs mode-locked Tm,Ho:CaYAlO4 laser at ∼2043 nm.
P50
Q30354740-98FC7B30-194B-4A63-B93D-AF1761C0901DQ30440022-EF1E0C70-EC16-4992-88BE-E9AA1C7722E1Q30993279-00224EC7-2622-40B7-AEA1-EF0489B49F8BQ33309250-D5CD55FE-1A95-4FAB-8B06-70C5D2668346Q33390969-3067580F-2650-4DFA-8534-EC6302B34BCAQ33465947-06C45FEE-9C63-45DE-A4A4-C6C8A628E429Q33469049-E822C949-2E48-4BE4-AD03-5FA6F2B79DBEQ33469279-B9EDBAF5-E3B9-418E-8BD5-25A7E46C0014Q33473876-0C0B64D5-1EE2-4735-8A6D-9B0D145F723FQ33773914-10F82465-81F3-4BB2-A417-6F1B4731BD97Q34195557-51470F2A-C4FC-47AE-985F-98069C313F98Q34347288-F0F10319-2F7D-42E1-9548-0A414B117509Q34617297-54DF6049-C3A4-4BB2-93C4-7048606CA7AFQ34787010-FE72A082-6A48-4CBD-BD43-2E041CE318A0Q35130042-2B5D0913-F09F-4821-8218-1FE1F591C531Q35516626-9844F935-9A30-49EB-8D87-442A17F2A181Q35593315-48E37256-2A22-4257-A45D-0C1C01F0DA2FQ35593842-CAF456AB-84C1-4A97-A897-9312E33D2FD8Q35773361-29F4A84A-1D73-4646-B486-114630A0AC41Q35922470-9CBECBEC-EF67-42FB-AF56-AFA973B77843Q36099132-8A9A27C1-9A4D-4458-894A-2B2C234FD9A8Q36191678-A3EC2897-1921-478D-9037-A683068DF70BQ36280943-11DD7CC3-9995-49E8-B55D-2A32FF74EFDCQ36336906-AE283DAA-FD40-49FD-A819-0DFC65396076Q36336919-8B338EB2-1419-4BE4-9A38-10B3A9A9115DQ36341161-CDC9D0A0-EDD5-4326-98C0-4BAA6FCA7787Q37689136-5E561B92-7ADC-4F49-A65F-211DAE784E6AQ38637338-DEF87EBA-008F-463A-8694-C075997D8969Q40211374-217E9B80-749E-4C34-96CA-8456C5B9BF64Q41388627-32F5CD12-D6A6-4FF8-8622-A1A1294839AAQ41666904-5738354B-4D61-48E3-BDA2-031573254442Q41836797-C2E4C032-BAB8-4DD7-A7BF-3A32ABB73E05Q41880942-424B289F-7F88-4512-8725-6D83F13500E7Q41952302-B1C1FD1B-F4AB-495B-A50C-B97AA20AFCCAQ42315705-9E765AD9-B74F-4642-B59F-D3FDE72C050CQ42413840-643DBD1B-85ED-44D2-BF2D-F9857C19C1DEQ47235197-09381B3E-073E-4A91-A9D7-CCB6BAEC216FQ49807362-024C0B1C-F8D8-40D1-9B84-BDCB0C445A6CQ49997708-34CE9363-3E05-49F6-8A20-CCF402EEC0D0Q50001327-A3FA7193-8651-48F7-8E6E-AF89C2D8C1F4
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Mircea Guina
@ast
Mircea Guina
@en
Mircea Guina
@es
Mircea Guina
@nl
Mircea Guina
@sl
type
label
Mircea Guina
@ast
Mircea Guina
@en
Mircea Guina
@es
Mircea Guina
@nl
Mircea Guina
@sl
prefLabel
Mircea Guina
@ast
Mircea Guina
@en
Mircea Guina
@es
Mircea Guina
@nl
Mircea Guina
@sl
P1053
F-4183-2014
P106
P21
P31
P3829
P496
0000-0002-9317-8187