Non-invasive imaging through opaque scattering layers. - Wikidata - wikimedia - TriplyDB

Non-invasive imaging through opaque scattering layers.

Non-invasive imaging through opaque scattering layers.

http://www.wikidata.org/entity/Q34470642

about

Photoacoustics with coherent light.Engineering approaches to illuminating brain structure and dynamics Preferential coupling of an incident wave to reflection eigenchannels of disordered media.High speed color imaging through scattering media with a large field of view Real-time imaging through strongly scattering media: seeing through turbid media, instantly High-resolution in vivo imaging of mouse brain through the intact skull.All Photons Imaging Through Volumetric Scattering.Roadmap on neurophotonics.Smart optical coherence tomography for ultra-deep imaging through highly scattering media Guidestar-assisted wavefront-shaping methods for focusing light into biological tissue.Controlled light field concentration through turbid biological membrane for phototherapy.Time-reversed adapted-perturbation (TRAP) optical focusing onto dynamic objects inside scattering media Physical principles for scalable neural recording.Speckle-scale focusing in the diffusive regime with time-reversal of variance-encoded light (TROVE).Optimal control of light propagation through multiple-scattering media in the presence of noise Bright emission from a random Raman laser.Hiding scattering layers for noninvasive imaging of hidden objects.Exploiting the speckle-correlation scattering matrix for a compact reference-free holographic image sensor.Sub-Nyquist sampling boosts targeted light transport through opaque scattering media.Glare suppression by coherence gated negation.Oversampling smoothness: an effective algorithm for phase retrieval of noisy diffraction intensities Single-shot three-dimensional structure determination of nanocrystals with femtosecond X-ray free-electron laser pulses.Individual speckle diffraction based 1D and 2D Random Grating Fabrication for detector and solar energy harvesting applications.Optimization of focusing through scattering media using the continuous sequential algorithm.Optical imaging through dynamic turbid media using the Fourier-domain shower-curtain effect Memory-effect based deconvolution microscopy for super-resolution imaging through scattering media.Ciphertext-only attack on optical cryptosystem with spatially incoherent illumination: from the view of imaging through scattering medium Imaging behind opaque obstacle: a potential method for guided in vitro needle placement.Imaging adherent cells in the microfluidic channel hidden by flowing RBCs as occluding objects by a holographic method.Color resolution improvement of the dark-field microscopy imaging of single light scattering plasmonic nanoprobes for microRNA visual detection.Non-invasive three-dimension control of light between turbid layers using a surface quasi-point light source for precorrection.Locating and classifying fluorescent tags behind turbid layers using time-resolved inversion.Generalized image deconvolution by exploiting the transmission matrix of an optical imaging system.Phase-Retrieved Tomography enables Mesoscopic imaging of Opaque Tumor Spheroids.Focusing light through scattering media by polarization modulation based generalized digital optical phase conjugation.Aperiodic nanoplasmonic devices for directional colour filtering and sensing.Demonstrating Improved Multiple Transport-Mean-Free-Path Imaging Capabilities of Light Sheet Microscopy in the Quantification of Fluorescence Dynamics.13-fold resolution gain through turbid layer via translated unknown speckle illumination.Measurement of the time-resolved reflection matrix for enhancing light energy delivery into a scattering medium.Imaging moving targets through scattering media.

P2860

Q26748975-80D1C5C9-6EB7-4659-A1E4-5C27FCD4D129 Q27002389-3EE4F857-13B7-4313-848E-8D79067FAEB8 Q27308884-652DA407-4156-41B9-BE16-180870188A29 Q27313307-93A12807-A2A5-4AC3-B1D8-A5E41F419C74 Q27318641-3D66D478-EBCB-4049-9787-903DC87BAF7C Q27323029-BA011B44-8AFA-47AC-8314-ECCF1FA6F5AB Q27345176-3F611EDA-240D-4171-9AB4-5F71F0C3979D Q30252703-5BE587F7-C474-4E6D-A5AF-B1EE0A10C1FB Q30369951-C5DE11F1-E2E3-4DCC-AB91-D2CCD3FCDDA7 Q30381823-F28D7F0C-175A-4261-B20D-B2DDE1E93300 Q30408510-8C8B5537-7709-4A43-AE07-F9F879D8B598 Q30410484-C6680D6B-1E80-49BE-BA32-FE7079A34108 Q30447716-DA8BB54D-F40F-4C4D-B849-007206FE4853 Q30448760-F09314FF-714F-470C-B937-A99D09DE87C2 Q30449189-8288D630-B76B-40FD-BB59-8656D5A4DD3F Q30584308-29086DA8-5D1B-4153-A2DF-634B0A100A77 Q30620121-7332C716-E6FA-488C-8D75-CAD59DB91849 Q30827489-87266521-C1DF-43BA-9710-F5E01E72E400 Q33858957-6DCA9A0D-B918-4879-B3F3-B6A4D7FF2D5F Q33902272-8C1237D9-76CA-4A2C-BEBC-FF178D9C3715 Q34675991-4ACAC1F9-D84B-4539-A8C0-B22F5D7C1464 Q35181804-033E557E-E2EB-4D66-B8A3-01414F77390E Q35913798-16803428-9150-45D8-9215-9C3EF2A02C87 Q36716352-379BE287-B83B-4D3E-8237-0041B0A7374E Q37031243-C2760677-88C7-498C-B01E-416B70A0EE84 Q37260681-D0396AC4-D5F8-4AE6-81D9-993ADF5AABA9 Q37615322-EF91FFD5-5B9D-4D6D-AD3D-32F692190008 Q39623567-5B10CD15-4342-4AAD-9D7E-D1576160530A Q40193980-B6BCD61A-60FD-4282-A972-D3C8EC0BF484 Q40454495-EB34F391-3244-4DBE-B8BF-FE6707D8DFDF Q40500420-5498F360-195D-4F43-A40A-5891872F27B5 Q41086096-B3ABE9BD-ECA5-4E97-8734-77961C734573 Q41483895-FF757019-0FB9-4A38-831D-3ED5F423A478 Q41717307-BA4820B6-36D9-4C84-8E22-184CC446A295 Q46085956-F0905578-AAE3-4F18-BCBC-E6A4100FC944 Q47135059-732B2CFA-8624-4E92-986B-9B3E5CD6CF04 Q47321608-397646DE-FD50-4EC2-9875-B4D63A467A02 Q48527690-37E1AA40-842F-4FA2-BFA9-A92DBCA074B1 Q49064039-C90BC46E-A48D-42DA-9B7D-7C6A90BAF6ED Q49586327-81CE149A-C937-4436-94C3-CA7EDB53869E

P2860

Non-invasive imaging through opaque scattering layers.

http://www.wikidata.org/entity/Q34470642

description

2012 nî lūn-bûn

@nan

2012 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

@hyw

2012 թվականի նոյեմբերին հրատարակված գիտական հոդված

@hy

2012年の論文

@ja

2012年論文

@yue

2012年論文

@zh-hant

2012年論文

@zh-hk

2012年論文

@zh-mo

2012年論文

@zh-tw

2012年论文

@wuu

name

Non-invasive imaging through opaque scattering layers.

@ast

Non-invasive imaging through opaque scattering layers.

@en

Non-invasive imaging through opaque scattering layers.

@nl

type

label

Non-invasive imaging through opaque scattering layers.

@ast

Non-invasive imaging through opaque scattering layers.

@en

Non-invasive imaging through opaque scattering layers.

@nl

prefLabel

Non-invasive imaging through opaque scattering layers.

@ast

Non-invasive imaging through opaque scattering layers.

@en

Non-invasive imaging through opaque scattering layers.

@nl

P1433

Q34470642-E4ABFBAF-1D30-4B6E-9C24-72A2D7916CCB

P1476

Q34470642-2D7A89E6-161A-4DE7-9227-2E5EF49F5632

P2093

Q34470642-43619A9F-F04A-4C20-AEA4-92A2ED1190F7

Q34470642-6BA3CDA1-CFFD-41DD-B578-005D2F771774

Q34470642-B22FEF30-0069-4E76-BB9B-8A5C418086FC

Q34470642-C98396BD-A6E5-4046-A5D3-6D910DA8AF5F

P2860

Q34470642-2676DCEC-30E2-42E2-BBCF-5249B49B3DBF

Q34470642-35126525-1905-4B56-A0CA-65E3E39522E4

Q34470642-49D7DB32-A4DA-4E9C-944E-D42F0D7AE172

Q34470642-6A015207-774B-4E6F-8454-E88D81C123C5

Q34470642-6B38A3A6-CCD5-4E9E-96ED-AD839535E36D

Q34470642-74CCB43C-3E1B-48DF-ACD5-FC07F5A7F5E2

Q34470642-7A717014-0D80-488F-8EAB-6BDD006903BD

Q34470642-7F8F63F7-362D-416C-95EC-3B34DB449216

Q34470642-9005F9BB-807B-4475-AA38-B80310A88E5C

Q34470642-91FEFFE6-BB52-4380-9DA1-D2F2E6B98EA0

P2888

Q34470642-807C0531-600D-4962-9CEB-0E9A9955DF71

P304

Q34470642-6776C3EC-BC23-4FFD-B536-0C9F6298CAFE

P31

Q34470642-25C6EADF-9D8C-4AC6-866E-BE71915C99DD

P356

Q34470642-EB0EF6BA-FEFA-43ED-990B-5B795CFC9266

P407

Q34470642-186B50BD-044B-4854-B3E4-88FB27557EE8

P433

Q34470642-A16E1AAC-D384-4547-BFC7-076B67CB0712

P478

Q34470642-2CD34536-B181-40D5-BFE2-3FF85910F320

P50

Q34470642-51C3A389-7D25-41C7-8923-F4B3D0877F24

Q34470642-BCA90F97-50F8-4BBD-952F-64019B6B1C74

P577

Q34470642-28C1DC48-69C2-4D8F-B386-ECB6BD77F0DD

P5875

Q34470642-72730EED-22F5-40F1-B8C0-C6A06AA9E3E1

P6179

Q34470642-6494BBC2-4D76-4367-A882-E544E32A26BD

P698

Q34470642-195F0DE1-F850-4973-AF49-5F7535A7C434

P356

P1433

P1476

Non-invasive imaging through opaque scattering layers

@en

P2093

Ad Lagendijk

http://www.w3.org/2001/XMLSchema#string

Christian Blum

http://www.w3.org/2001/XMLSchema#string

Elbert G van Putten

http://www.w3.org/2001/XMLSchema#string

Jacopo Bertolotti

http://www.w3.org/2001/XMLSchema#string

P2860

“Two-Photon” Coincidence Imaging with a Classical Source

Scattering Lens Resolves Sub-100 nm Structures with Visible Light

Observation of Two-Photon “Ghost” Interference and Diffraction

Optical coherence tomography

Photoacoustic tomography: in vivo imaging from organelles to organs

OPTICAL PHASE CONJUGATION FOR TURBIDITY SUPPRESSION IN BIOLOGICAL SAMPLES.

Recent advances in diffuse optical imaging.

Light-in-flight recording by holography.

Scattered light fluorescence microscopy: imaging through turbid layers.

Imaging through turbid layers by scanning the phase conjugated second harmonic radiation from a nanoparticle.

P2888

P304

232-234

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NATURE11578

http://www.w3.org/2001/XMLSchema#string

P407

P433

7423

http://www.w3.org/2001/XMLSchema#string

P478

491

http://www.w3.org/2001/XMLSchema#string

P50

P577

2012-11-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

233331727

http://www.w3.org/2001/XMLSchema#string

P6179

1049066192

http://www.w3.org/2001/XMLSchema#string

P698

23135468

http://www.w3.org/2001/XMLSchema#string