about
Optical coherence tomography identifies lower labial salivary gland surface density in cystic fibrosis.Improved measurement of vibration amplitude in dynamic optical coherence elastography.Corneal topography with high-speed swept source OCT in clinical examination.Ultra high-speed swept source OCT imaging of the anterior segment of human eye at 200 kHz with adjustable imaging range.Imaging of the lens capsule with an ultrahigh-resolution spectral optical coherence tomography prototype based on a femtosecond laser.Optical coherence microscopy as a novel, non-invasive method for the 4D live imaging of early mammalian embryos.Dynamics of a short cavity swept source OCT laser.Quantitative optical inspection of contact lenses immersed in wet cell using swept source OCT.Single shot, time-resolved measurement of the coherence properties of OCT swept source lasers.Quantitative assessment of oral mucosa and labial minor salivary glands in patients with Sjögren's syndrome using swept source OCT.Optical Coherence Tomography of the Labial Salivary Glands Reveals Age-Related Differences in Women.Ultrahigh-resolution optical coherence elastography through a micro-endoscope: towards in vivo imaging of cellular-scale mechanics.Swept source optical coherence tomography and tunable lens technology for comprehensive imaging and biometry of the whole eyeAssessment of corneal dynamics with high-speed swept source optical coherence tomography combined with an air puff systemLabel-free volumetric imaging of conjunctival collecting lymphatics ex vivo by optical coherence tomography lymphangiographyVectorial birefringence imaging by optical coherence microscopy for assessing fibrillar microstructures in the cornea and limbusAssessment of the influence of viscoelasticity of cornea in animal ex vivo model using air-puff optical coherence tomography and corneal hysteresis
P50
Q27315943-9B08E2CC-239A-4CE8-92E2-65F7499E4352Q30459894-BA03A623-1C2E-47CE-8816-2C38A9281CE1Q31033058-E69C2C02-F623-43FE-AA6D-BCAF98CC17A8Q33494462-512A60C5-A687-47DC-A150-94E0A5B212D7Q33538938-8ACB5231-0004-420E-918F-8ECA3D2C9B2DQ33829878-27C9F9F0-CD3D-419F-BA7D-326DBBF41CF5Q35218301-8FE7BEB8-B64D-4DAD-8770-FFFA1EBC281DQ35224625-B99EBD97-2E0E-4615-9A58-54072593749CQ35783176-BA4EA063-01F3-45BF-87BE-B70C36BE77CCQ37476885-9578A714-CAFB-4EDE-A5BD-A7C4CD6F4EE9Q37700880-5C96C8B7-4033-41B9-8DE8-55046E5BB30FQ47098629-4F5CED48-1708-4D68-A105-98943A4CAC5DQ57387512-36563C91-C9F5-4A8E-8821-9BD28F31022FQ84968514-5225EAEE-BB1E-4793-9EBF-EE7566E56386Q89155311-277644EC-54DD-47BB-B351-14387CBCAEF7Q90610914-B9E23C1F-E848-4A52-B09B-F801D82B0A3AQ91613899-B21EC967-A4ED-45E5-82A0-A6518F78EFEB
P50
description
onderzoeker
@nl
polski biofizyk
@pl
researcher ORCID ID = 0000-0002-5426-5878
@en
name
Karol Karnowski
@ast
Karol Karnowski
@ca
Karol Karnowski
@cs
Karol Karnowski
@en
Karol Karnowski
@es
Karol Karnowski
@gl
Karol Karnowski
@hr
Karol Karnowski
@hsb
Karol Karnowski
@it
Karol Karnowski
@nl
type
label
Karol Karnowski
@ast
Karol Karnowski
@ca
Karol Karnowski
@cs
Karol Karnowski
@en
Karol Karnowski
@es
Karol Karnowski
@gl
Karol Karnowski
@hr
Karol Karnowski
@hsb
Karol Karnowski
@it
Karol Karnowski
@nl
prefLabel
Karol Karnowski
@ast
Karol Karnowski
@ca
Karol Karnowski
@cs
Karol Karnowski
@en
Karol Karnowski
@es
Karol Karnowski
@gl
Karol Karnowski
@hr
Karol Karnowski
@hsb
Karol Karnowski
@it
Karol Karnowski
@nl
P1053
D-6222-2014
P106
P1412
P1559
Karol Karnowski
@pl
P21
P214
28150030737710962286
P27
P31
P3124
P496
0000-0002-5426-5878
P734
P735
P7859
viaf-28150030737710962286