Improved three-dimensional imaging with a digital holography microscope with a source of partial spatial coherence.
about
Cardiomyocyte imaging using real-time spatial light interference microscopy (SLIM)Field-portable reflection and transmission microscopy based on lensless holography.Compact, light-weight and cost-effective microscope based on lensless incoherent holography for telemedicine applications.Fully automated digital holographic processing for monitoring the dynamics of a vesicle suspension under shear flowParallel phase-shifting digital holographic microscopyPartially coherent illumination in full-field interferometric synthetic aperture microscopy.Lensfree on-chip microscopy over a wide field-of-view using pixel super-resolution.Three-dimensional identification of microorganisms using a digital holographic microscope.Digital inline holographic microscopy (DIHM) of weakly-scattering subjects.Synthetic optical holography for rapid nanoimaging.A Mach-Zender digital holographic microscope with sub-micrometer resolution for imaging and tracking of marine micro-organisms.Enhanced quantitative phase imaging in self-interference digital holographic microscopy using an electrically focus tunable lens.Multimodal holographic microscopy: distinction between apoptosis and oncosis.Partially coherent lensfree tomographic microscopy [Invited]Three-dimensional differential interference contrast microscopy using synthetic aperture imaging.Digital adaptive optics line-scanning confocal imaging systemCompact Lens-less Digital Holographic Microscope for MEMS Inspection and Characterization.Single-shot self-interference incoherent digital holography using off-axis configuration.Imaging without lenses: achievements and remaining challenges of wide-field on-chip microscopyIntracellular Doppler Signatures of Platinum Sensitivity Captured by Biodynamic Profiling in Ovarian Xenografts.Overview of techniques applicable to self-interference incoherent digital holographyFourier transform digital holographic adaptive optics imaging systemPhase aberration correction by correlation in digital holographic adaptive optics.Wide-field optical detection of nanoparticles using on-chip microscopy and self-assembled nanolenses.Digital holographic microscopy in human sperm imaging.Digital holographic microscopy for the evaluation of human sperm structure.Quantitative analysis of platelets aggregates in 3D by digital holographic microscopy.Lensfree super-resolution holographic microscopy using wetting films on a chip.Incoherent digital holograms acquired by interferenceless coded aperture correlation holography system without refractive lenses.High-brightness laser imaging with tunable speckle reduction enabled by electroactive micro-optic diffusers.Dead or alive? Viability assessment of micro- and mesoplankton
P2860
Q27313844-05799E15-35D3-4A85-8090-DED4D37900E6Q31033066-4CD24D2C-7DC6-43D8-BB45-F04D9AE5DDDFQ33558671-85496C10-CE1D-4049-B4D3-FD61AD7BCF06Q33634547-A5ADCFE5-8D41-43CF-AEBD-83797E951A20Q33800967-C3ECDB7F-FF2D-4891-BF7C-8A8F511A8CCFQ33904406-DECC1B98-45D6-4206-8B45-40DD5AC34FBFQ33968560-2DF303F7-FAE2-4718-9782-14D871948647Q34680413-02F814E8-BE18-49F2-B648-C8F3049CB2FFQ35100527-839AF9E0-021E-4C9A-830F-A169269B2C8BQ35126190-57380A3F-15BF-4D62-9241-15B9A010276AQ35536985-B460D00C-0123-4010-A9D2-480D84EF4D20Q35540797-78DD75CF-DD5D-4C06-8EE3-94D55C0007A8Q35585444-7095C2EB-4CEF-44E2-AC03-8C7A1FE7BF73Q35677120-3F2B39D4-057C-4F79-94DC-674819E5A3A0Q36051374-98D837DC-6D0E-4140-BBD9-7EE14E6FCEDCQ36065547-45DAAFBB-9AD1-4A2C-BD5B-54C982B75C7BQ36073868-51DB74CB-E083-4D31-B84D-9F3DB55C1791Q36206742-5C9C0751-720D-4C3D-8C1E-29178F7ABEE7Q36336814-0BA43242-5C1B-4E68-BAFA-52682C4B5539Q36432553-752B74DA-D13D-4E68-87CA-E19DAC6064BCQ36684964-B1437248-0FC1-4C32-94D6-DC7767B00987Q36983171-E6AC67E5-0A2C-4C1C-B708-F131C966F295Q37006110-2D4D23B5-7FD2-42F3-B127-28B518F47C0CQ37399080-6E9B83A4-B0D2-4CFE-BFC8-F2C895B3EAB9Q38364905-AB186DDA-AB6E-45AC-BF27-A71363A7F41AQ40096453-6EC9997E-214B-4E27-8BD9-1B99CC3C270FQ40317987-1E3F15AE-EC49-4D83-9F9A-4E0B7319D8B6Q40400456-FD70873C-FADC-4C1A-904C-427B2442D902Q41047000-A6E355D8-E28F-40D8-8584-1CD6E476230EQ45622817-A16466D1-DBCE-432A-AE0F-E1895C4F5DEDQ56560354-361283AA-1D9B-48A7-9238-B714D6620DDC
P2860
Improved three-dimensional imaging with a digital holography microscope with a source of partial spatial coherence.
description
1999 nî lūn-bûn
@nan
1999 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Improved three-dimensional ima ...... of partial spatial coherence.
@ast
Improved three-dimensional ima ...... of partial spatial coherence.
@en
Improved three-dimensional ima ...... of partial spatial coherence.
@nl
type
label
Improved three-dimensional ima ...... of partial spatial coherence.
@ast
Improved three-dimensional ima ...... of partial spatial coherence.
@en
Improved three-dimensional ima ...... of partial spatial coherence.
@nl
prefLabel
Improved three-dimensional ima ...... of partial spatial coherence.
@ast
Improved three-dimensional ima ...... of partial spatial coherence.
@en
Improved three-dimensional ima ...... of partial spatial coherence.
@nl
P2093
P356
P1433
P1476
Improved three-dimensional ima ...... of partial spatial coherence.
@en
P2093
P304
P356
10.1364/AO.38.007085
P407
P577
1999-12-01T00:00:00Z