about
Numerical modeling of thermoelastic generation of ultrasound by laser irradiation in the coupled thermoelasticity.Limits of Spatial Resolution for Thermography and Other Non-destructive Imaging Methods Based on Diffusion WavesNon-contact photoacoustic imaging using a fiber based interferometer with optical amplification.Piezoelectric annular array for large depth of field photoacoustic imaging.Weight factors for limited angle photoacoustic tomographyScanning acoustic-photoacoustic microscopy using axicon transducers.Photoacoustic tomography using a Mach-Zehnder interferometer as an acoustic line detector.Remote photoacoustic imaging on solid material using a two-wave mixing interferometer.Photoacoustic imaging using an adaptive interferometer with a photorefractive crystal.Broadband high-frequency measurement of ultrasonic attenuation of tissues and liquids.Two-photon absorption-induced photoacoustic imaging of Rhodamine B dyed polyethylene spheres using a femtosecond laser.On the crossing points of the Lamb modes and the maxima and minima of displacements observed at the surface.Quasi-balanced two-wave mixing interferometer for remote ultrasound detectionRemote mid-infrared photoacoustic spectroscopy with a quantum cascade laser.Thermodynamic Limits of Spatial Resolution in Active Thermography.Characterization of the spatio-temporal response of optical fiber sensors to incident spherical waves.Deblurring algorithms accounting for the finite detector size in photoacoustic tomography.Photoacoustic microtomography using optical interferometric detection.Exact and approximative imaging methods for photoacoustic tomography using an arbitrary detection surface.Three-dimensional photoacoustic imaging using fiber-based line detectors.Acoustic Reconstruction for Photothermal ImagingLaser ultrasonic receivers based on organic photorefractive polymer compositesCharacterization of broadband fiber optic line detectors for photoacoustic tomography
P50
Q30436135-50610462-A59E-406E-8976-CA6D0573CD1AQ30445955-89C7C1E9-6D13-4646-BD4D-09836645FCEDQ30446425-345F7EA2-F824-4678-BF0B-16A012B7562EQ30473753-F3B748C0-8E97-4D7E-8120-72D672B60704Q30474236-587E295C-A9FE-4CCE-93B5-B069E6BA2061Q30477489-1E4CE7D5-E3F4-4E67-AEA9-044FC33B38D4Q33285180-B8AF599D-4165-4706-B9ED-AEE594D2222EQ33774179-A0B27382-43C6-4618-BE5A-FA918ED5C156Q34165985-34268D75-5610-4872-B5FE-21F47B54628FQ34503817-F0CD486F-43A7-41D6-91D6-9F48C468F66DQ35011565-824A3ED2-CE1B-4D96-A7A1-573382245A0CQ35051495-98464198-D5D8-43DA-8FCE-E02CA2FD0007Q35069078-6A9F44A9-DC6B-4DD3-9020-39FDC18883A7Q35741148-64FC1EB6-7792-4F63-9A30-F0A994DA1007Q35848451-2B9BD32B-7B9B-42BD-9D1F-357EAB12357FQ45962254-B4B0F16B-8EF0-47A4-8BAC-0F0567D0AB92Q46099293-4B5CE902-F115-4CA3-A97B-A8BDD5804A1AQ51698691-D503D8D4-CAAB-4468-960C-30C4CF46FB4CQ51914700-B02358AF-A1F2-438F-B4B4-0C0DCC041A71Q52705043-064DEAAF-DD10-461F-B71E-7C3700A61C58Q58692643-D041B4D1-DBEE-4437-B80F-8778F8B30979Q58911497-017CA7CA-94E7-40A1-A25B-69BFDF7C65EFQ83525493-099F5FEB-2516-40C8-A6DC-E7158D795302
P50
description
hulumtues
@sq
investigador austriacu
@ast
investigador austríaco
@es
onderzoeker uit Oostenrijk
@nl
researcher
@en
taighdeoir
@ga
österreichischer Forscher
@de
հետազոտող
@hy
name
Peter Burgholzer
@ast
Peter Burgholzer
@bar
Peter Burgholzer
@ca
Peter Burgholzer
@de
Peter Burgholzer
@en
Peter Burgholzer
@es
Peter Burgholzer
@fr
Peter Burgholzer
@ga
Peter Burgholzer
@nl
Peter Burgholzer
@sl
type
label
Peter Burgholzer
@ast
Peter Burgholzer
@bar
Peter Burgholzer
@ca
Peter Burgholzer
@de
Peter Burgholzer
@en
Peter Burgholzer
@es
Peter Burgholzer
@fr
Peter Burgholzer
@ga
Peter Burgholzer
@nl
Peter Burgholzer
@sl
prefLabel
Peter Burgholzer
@ast
Peter Burgholzer
@bar
Peter Burgholzer
@ca
Peter Burgholzer
@de
Peter Burgholzer
@en
Peter Burgholzer
@es
Peter Burgholzer
@fr
Peter Burgholzer
@ga
Peter Burgholzer
@nl
Peter Burgholzer
@sl
P106
P1153
55907676400
P21
P27
P31
P496
0000-0003-3383-803X