about
Arrhythmia caused by a Drosophila tropomyosin mutation is revealed using a novel optical coherence tomography instrumentCombinations of techniques in imaging the retina with high resolution.Multidimensional en-face OCT imaging of the retina.En face optical coherence tomography investigation of apical microleakage after laser-assisted endodontic treatment.En-face optical coherence tomography - a novel application of non-invasive imaging to art conservation.Dual optical coherence tomography/fluorescence microscopy for monitoring of Drosophila melanogaster larval heart.Adaptive optics enhanced simultaneous en-face optical coherence tomography and scanning laser ophthalmoscopy.Towards simultaneous Talbot bands based optical coherence tomography and scanning laser ophthalmoscopy imagingExtra long imaging range swept source optical coherence tomography using re-circulation loops.Frequency multiplexed long range swept source optical coherence tomography.Dual-mode-locking mechanism for an akinetic dispersive ring cavity swept source.Noninvasive Quantitative Evaluation of the Dentin Layer during Dental Procedures Using Optical Coherence Tomography.Master slave en-face OCT/SLO.Gabor fusion master slave optical coherence tomography.Optimization of excitation of fiber Fabry-Perot tunable filters used in swept lasers using a phase-correction method.Master/slave interferometry - ideal tool for coherence revival swept source optical coherence tomography.Imaging the eye fundus with real-time en-face spectral domain optical coherence tomography.Imaging of periocular basal cell carcinoma using en face optical coherence tomography: a pilot study.Statistics of the depth-scan photocurrent in time-domain optical coherence tomography.Imaging the retina by en face optical coherence tomography.On the possibility of producing true real-time retinal cross-sectional images using a graphics processing unit enhanced master-slave optical coherence tomography system.Demonstration of tolerance to dispersion of master/slave interferometry.Master/slave optical coherence tomography imaging of eyelid basal cell carcinoma.Design and testing of prototype handheld scanning probes for optical coherence tomography.Two applications of solid phantoms in performance assessment of optical coherence tomography systems.Direct electronic linearization for camera-based spectral domain optical coherence tomography.Combined multiplanar optical coherence tomography and confocal scanning ophthalmoscopy.Simultaneous optical coherence tomography--Indocyanine Green dye fluorescence imaging system for investigations of the eye's fundus.Attenuation of mirror image and enhancement of the signal-to-noise ratio in a Talbot bands optical coherence tomography system.Speckle reduction using an artificial neural network algorithm.Image quality improvement in optical coherence tomography using Lucy-Richardson deconvolution algorithm.Multiplexing-based polarization sensitive en-face optical coherence tomography.Speckle variance OCT for depth resolved assessment of the viability of bovine embryos.Quasi-simultaneous optical coherence tomography and confocal imaging.An overview of methods to mitigate artifacts in optical coherence tomography imaging of the skin.Closed loop tracked Doppler optical coherence tomography based heart monitor for the Drosophila melanogaster larvae.3-D optical coherence tomography of the laryngeal mucosa.Q-switch-pumped supercontinuum for ultra-high resolution optical coherence tomography.Complex master slave interferometry.Calibration-free B-scan images produced by master/slave optical coherence tomography.
P50
Q27315223-40F205BE-19BD-4370-A2AC-48561C4466ACQ33336951-9C35A4CC-9117-4E67-AA72-AC4DAE8EFC01Q33414628-A1F22C87-9F56-4998-943B-D6BDB1C838EEQ33448608-E26D9293-34D7-42E9-8784-12655428598CQ33461198-C6D5557F-EBDE-4B5D-BA4D-574CC57476A0Q33463535-7C1BD6BE-8E01-4891-91D2-CBE3FC5F3828Q33465599-C9DAC8EE-6091-4C3B-957D-49FDA984D462Q33634558-D74E45F6-9EA1-43D7-8B4F-72C927C3A002Q33773878-4C3BD0FC-1A2F-4075-8F51-EB8BEA6553A0Q34768975-54C555C1-6D4A-4673-8194-55E7F6C34DDFQ35592173-6C009374-5CA6-4B56-97BF-9969A23756C3Q35674717-F2E63CDB-51F4-471D-866C-CABA3939CE60Q35791386-4D2762E9-A797-4CC7-8E63-85AE127A8D20Q36300274-D42F755C-B472-483D-A2D9-002AC56DEBB6Q36353377-3BA1DDDC-D96C-4985-94F6-6DE517915803Q37103143-D73DA2F3-3861-4307-BCC8-15D96BF5F672Q38741429-F3B31088-BF58-463F-8B20-A77B500B0F11Q39867827-CCF0E867-3218-406E-AC03-39E41FFE7CBAQ40141114-E85EBBC6-F898-42F5-8E7A-7BB87B313090Q40351969-94048339-01E3-4248-98FF-95F6E377D488Q40711065-2A0254B6-A56A-40A4-9367-33865625476DQ40837335-2D6C4B9F-76D6-437D-83A0-C475CAF0E245Q42499441-0B951CAE-FCD4-4F7C-93F8-E99EFA41ECB0Q43006448-A45E938F-B0BF-46F5-AC9E-2CD3FEBB8155Q44219308-E27CA4B7-651D-473C-9BEF-A6A8E87B409CQ44279882-854544F0-468F-4B00-AA99-12B2A0EFBE79Q44722119-7595CE1C-F25A-4982-A6A4-A728155C1C07Q45222501-8EF9EDCD-BCA5-4AF4-8B1F-2816FE62AC4AQ45874100-F03745BE-9BA5-42A8-9998-9C818C0796F7Q45938145-17D3D94E-CBB8-4A7C-BF4E-047F180A38DEQ45967018-9278416A-3C77-48C0-B1FB-9C2703A28848Q46029096-4FA1B37D-5DF9-4C9D-B6DC-A58E36B9D96AQ47140025-A5B5FE12-034C-4389-A3CE-46F0752A5DA0Q47226590-BF3BF0BE-A075-4EBB-B89D-A863ABEBE470Q47343613-E18EA644-35AA-4362-BCF0-6788CF7FF946Q48672143-410854E4-E263-4D74-83B7-CE4AF4CD636CQ48827598-946BE23D-0A72-427B-9D1A-A98A3553B791Q50000931-044AA624-D5AB-4FFB-B1EF-EF6886DB2ECBQ50301630-81FD4FD9-C282-4F3A-8F76-46EAF4FB368BQ50302236-4E07EBEE-CEE2-4C36-8C82-F26B45C057B4
P50
description
onderzoeker
@nl
scientist
@en
name
Adrian Podoleanu
@ast
Adrian Podoleanu
@en
Adrian Podoleanu
@es
Adrian Podoleanu
@nl
Adrian Podoleanu
@sl
type
label
Adrian Podoleanu
@ast
Adrian Podoleanu
@en
Adrian Podoleanu
@es
Adrian Podoleanu
@nl
Adrian Podoleanu
@sl
prefLabel
Adrian Podoleanu
@ast
Adrian Podoleanu
@en
Adrian Podoleanu
@es
Adrian Podoleanu
@nl
Adrian Podoleanu
@sl
P1053
F-7094-2012
P106
P1153
26638425000
P21
P31
P3829
P496
0000-0002-4899-9656
P569
2000-01-01T00:00:00Z