about
Multi-Contrast Imaging and Digital Refocusing on a Mobile Microscope with a Domed LED Array.Transport of Intensity phase imaging by intensity spectrum fitting of exponentially spaced defocus planes.Multiplexed coded illumination for Fourier Ptychography with an LED array microscope.Real-time brightfield, darkfield, and phase contrast imaging in a light-emitting diode array microscope.Quantitative differential phase contrast imaging in an LED array microscope.Motion deblurring with temporally coded illumination in an LED array microscope.Structured illumination microscopy with unknown patterns and a statistical prior.Compressive holographic video.Self-learning based Fourier ptychographic microscopy.3D imaging in volumetric scattering media using phase-space measurements.3D differential phase contrast microscopy.Path-independent phase unwrapping using phase gradient and total-variation (TV) denoising.The transport of intensity equation for optical path length recovery using partially coherent illumination.Computational imaging: Machine learning for 3D microscopy.Transport of intensity phase imaging in the presence of curl effects induced by strongly absorbing photomasks.Experimental robustness of Fourier ptychography phase retrieval algorithms.Relaxation of mask design for single-shot phase imaging with a coded aperture.Low-noise phase imaging by hybrid uniform and structured illumination transport of intensity equation.Compressive x-ray phase tomography based on the transport of intensity equation.Wigner function measurement using a lenslet array.Nonlinear diffusion regularization for transport of intensity phase imaging.Aperiodic subwavelength Lüneburg lens with nonlinear Kerr effect compensation.Transport of Intensity phase-amplitude imaging with higher order intensity derivatives.Iterative nonlinear beam propagation using Hamiltonian ray tracing and Wigner distribution function.Empirical concentration bounds for compressive holographic bubble imaging based on a Mie scattering model3D differential phase-contrast microscopy with computational illumination using an LED arrayCompressive holographic two-dimensional localization with 1/30^2 subpixel accuracyScanning-free compressive holography for object localization with subpixel accuracyWigner functions for evanescent wavesFrom Two-Dimensional Colloidal Self-Assembly to Three-Dimensional NanolithographyTalbot lithography using aperiodic structuresWigner functions defined with Laplace transform kernelsInverse scattering for reflection intensity phase microscopyDesign of a high-resolution light field miniscope for volumetric imaging in scattering tissueDeep spectral learning for label-free optical imaging oximetry with uncertainty quantificationPlasmonic ommatidia for lensless compound-eye visionHigh-throughput, volumetric quantitative phase imaging with multiplexed intensity diffraction tomography
P50
Q33443638-11BA8B63-1315-4E87-9B0B-73A7D856B5FBQ35186411-6203E69D-CC91-4C4D-9CF3-F898688C223AQ35214782-A849B2BD-FB28-4175-9C84-BDF2C4AC3993Q35290990-D469ABB2-537D-48F3-8C55-B5F26ADAE73BQ35630010-74B0D7B5-0CA7-43AD-A7DE-67A242CDF78DQ35783181-EDE0A71C-C218-4262-B3BA-E13A92833D45Q36300270-CA942875-79B9-49B1-B925-FBE8FBBCD024Q40435183-670224BA-A106-4510-A402-FCC1CD0678E1Q40718262-0E6F5882-197F-4AA0-A88C-EEC4495E529FQ40837316-13FAE861-33D6-462A-9ECC-C5A5D251D8CCQ42371255-8BEA33E1-7559-47ED-BBF7-1483E969AAC4Q44549262-7CD2D9DF-DC00-4D19-A648-01EC407933DAQ44760549-405923F4-7468-4B04-B482-433A922C909CQ44787242-D06CDCDE-B797-480F-945E-904DF72109AFQ47684979-0B5D9C43-6286-4156-B421-D9527D7FE4DCQ48692266-D7BC4926-412A-4C61-B802-345CECC93BADQ50692748-1365DF9D-9908-4BBD-9D21-D1DBB25D6E09Q51011574-7DBE0937-E4E5-4456-AAC8-38768FF4338FQ51168935-9BEB24C8-E38D-44F5-91F4-6CE9A15BA6F0Q51218447-01C9D045-7017-4A53-B824-ACF366EC5016Q51315760-89650541-56C6-48C4-AA41-E334A08A9E92Q51596978-754CC955-79F7-48EB-95BC-40BFE1C797B0Q51612111-46ED6CFE-4B4A-4C8C-B0D3-8DF314FC25B5Q51623947-39172E9F-3C75-4C02-ACB6-0144CFAC05ECQ61718967-F689F220-267F-4515-9575-CE0B4D6A618EQ61718976-32E5AAB6-3CA5-43AF-BB6C-ABE6DAD2AF09Q61718979-AA66B12C-89AA-4622-82B7-9B90D2865EB8Q61718988-89B676EC-12C0-4E43-BEAB-A051F7F373A4Q61718990-F4E6B53E-C57F-422B-9FBC-30D8B59C0280Q61718992-5F844457-A661-4E21-AEC5-374978F8C548Q61718993-4AC7ABE9-E803-4A43-B058-C3326ECCF5C3Q61718994-9354CA75-8FC1-40B2-A2B8-5700D52A39AEQ90610871-0BDFEBF4-60ED-43B0-8B8A-8EAC2A69AE17Q90611191-691C46ED-552B-4A27-BCE1-A5EE00CA12FEQ91387506-18F97B7C-8249-4F8B-889B-B6B0E56EF912Q91522004-C989D233-41C6-4B1A-A502-57BAE93786FCQ92101448-D818EAFA-7037-4902-A35A-70E3EA5C63FA
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Lei Tian
@ast
Lei Tian
@en
Lei Tian
@es
Lei Tian
@nl
Lei Tian
@sl
type
label
Lei Tian
@ast
Lei Tian
@en
Lei Tian
@es
Lei Tian
@nl
Lei Tian
@sl
prefLabel
Lei Tian
@ast
Lei Tian
@en
Lei Tian
@es
Lei Tian
@nl
Lei Tian
@sl
P1053
A-6463-2015
P106
P1153
56430354000
P21
P2798
P31
P3829
P496
0000-0002-1316-4456
P569
2000-01-01T00:00:00Z