| Nome |
# |
|
Diffuse optical characterization of collagen absorption from 500 to 1700 nm, file e0c31c0a-6b53-4599-e053-1705fe0aef77
|
526
|
|
Performance assessment of time-domain optical brain imagers, part 1: basic instrumental performance protocol, file e0c31c09-52e1-4599-e053-1705fe0aef77
|
324
|
|
New frontiers in time-domain diffuse optics, a review, file e0c31c09-f35a-4599-e053-1705fe0aef77
|
290
|
|
Novel technologies for time-domain diffuse optics: Miniaturized wearable devices and bioresorbable optical fibers, file e0c31c0c-9adf-4599-e053-1705fe0aef77
|
260
|
|
Time-resolved diffused optical characterization of key tissue constituents of human bony prominence locations, file e0c31c09-5fae-4599-e053-1705fe0aef77
|
254
|
|
Solid switchable phantom for diffuse optical imaging, file e0c31c09-52eb-4599-e053-1705fe0aef77
|
250
|
|
Design and construction of a solid switchable phantom for diffuse optical imaging, file e0c31c09-52f1-4599-e053-1705fe0aef77
|
234
|
|
In-vivo multilaboratory investigation of the optical properties of the human head, file e0c31c09-6065-4599-e053-1705fe0aef77
|
229
|
|
Mechanically switchable solid inhomogeneous phantom for performance tests in diffuse imaging and spectroscopy, file e0c31c09-4bcd-4599-e053-1705fe0aef77
|
225
|
|
Towards next generation time-domain diffuse optics devices, file e0c31c08-73a2-4599-e053-1705fe0aef77
|
221
|
|
In vivo time domain broadband (600-1200 nm) diffuse optical characterization of human bone, file e0c31c0b-a713-4599-e053-1705fe0aef77
|
214
|
|
Bioresorbable fibers for time-domain diffuse optical measurements: a step toward next generation optical implantable devices, file e0c31c0f-228c-4599-e053-1705fe0aef77
|
188
|
|
Spectrally Resolved Single-Photon Timing of Silicon Photomultipliers for Time-Domain Diffuse Spectroscopy, file e0c31c08-e250-4599-e053-1705fe0aef77
|
186
|
|
Light diffusion in quenched disorder: Role of step correlations, file e0c31c08-25a6-4599-e053-1705fe0aef77
|
177
|
|
Time domain diffuse optical spectroscopy: In vivo quantification of collagen in breast tissue, file e0c31c09-54f7-4599-e053-1705fe0aef77
|
175
|
|
In vivo depth heterogeneity of the abdomen assessed by broadband time-domain diffuse optical spectroscopy, file e0c31c0c-a33b-4599-e053-1705fe0aef77
|
175
|
|
Effects of time-gated detection in diffuse optical imaging at short source-detector separation, file e0c31c08-287a-4599-e053-1705fe0aef77
|
169
|
|
Frequency offset Raman spectroscopy (FORS) for depth probing of diffusive media, file e0c31c0a-7039-4599-e053-1705fe0aef77
|
166
|
|
Time- and frequency-resolved fluorescence with a single TCSPC detector via a Fourier-transform approach, file e0c31c0b-6c2c-4599-e053-1705fe0aef77
|
166
|
|
Spatially modulated illumination allows for light sheet fluorescence microscopy with an incoherent source and compressive sensing, file e0c31c0e-cf5f-4599-e053-1705fe0aef77
|
161
|
|
Multiple-view diffuse optical tomography system based on time-domain compressive measurements, file e0c31c0b-7ab1-4599-e053-1705fe0aef77
|
147
|
|
Broadband (550-1350 nm) diffuse optical characterization of thyroid chromophores, file e0c31c0c-4446-4599-e053-1705fe0aef77
|
142
|
|
Time-domain diffuse optical tomography using silicon photomultipliers: feasibility study, file e0c31c0a-038d-4599-e053-1705fe0aef77
|
137
|
|
Quantification in time-domain diffuse optical tomography using mellin-laplace transforms, file e0c31c09-f3a7-4599-e053-1705fe0aef77
|
131
|
|
Fast silicon photomultiplier improves signal harvesting and reduces complexity in time-domain diffuse optics, file e0c31c08-ec1e-4599-e053-1705fe0aef77
|
129
|
|
Depth sensitivity of frequency domain optical measurements in diffusive media, file e0c31c0c-7090-4599-e053-1705fe0aef77
|
129
|
|
High-throughput 3D imaging of single cells with light-sheet fluorescence microscopy on chip, file e0c31c10-626c-4599-e053-1705fe0aef77
|
128
|
|
In Vivo, non-invasive characterization of human bone by hybrid broadband (600-1200 nm) diffuse optical and correlation spectroscopies, file e0c31c0a-6fdd-4599-e053-1705fe0aef77
|
119
|
|
Compressed sensing in fluorescence microscopy, file e0c31c12-5d9a-4599-e053-1705fe0aef77
|
118
|
|
Solid heterogeneous phantoms for multimodal ultrasound and diffuse optical imaging: an outcome of the SOLUS project for standardization, file e0c31c0e-f99d-4599-e053-1705fe0aef77
|
116
|
|
There's plenty of light at the bottom: Statistics of photon penetration depth in random media, file e0c31c09-e984-4599-e053-1705fe0aef77
|
112
|
|
Non-Contact Inclusion Detection in Food Through a Single-Photon Time-of-Flight Imager, file e0c31c0a-70c4-4599-e053-1705fe0aef77
|
111
|
|
Time-domain functional diffuse optical tomography system based on fiber-free silicon photomultipliers, file e0c31c0b-8356-4599-e053-1705fe0aef77
|
107
|
|
Broadband (600-1100 nm) diffuse optical characterization of thyroid tissue constituents and application to in vivo thyroid studies, file e0c31c0c-4162-4599-e053-1705fe0aef77
|
102
|
|
Time-domain diffuse optics using bioresorbable fibers: A proof-of-principle study, file e0c31c0b-ece6-4599-e053-1705fe0aef77
|
99
|
|
Adaptive Basis Scan by Wavelet Prediction for Single-Pixel Imaging, file e0c31c0a-75f6-4599-e053-1705fe0aef77
|
87
|
|
Broadband diffuse optical characterization of elastin for biomedical applications, file e0c31c0c-6b2c-4599-e053-1705fe0aef77
|
84
|
|
Towards next-generation time-domain diffuse optics for extreme depth penetration and sensitivity, file e0c31c08-7349-4599-e053-1705fe0aef77
|
75
|
|
Broadband (600-1350 nm) Time-Resolved Diffuse Optical Spectrometer for Clinical Use, file e0c31c09-f6a5-4599-e053-1705fe0aef77
|
68
|
|
Time-resolved laser spectroscopy for the in situ characterization of methacrylate monomer flow within spruce, file e0c31c0a-70c3-4599-e053-1705fe0aef77
|
68
|
|
Spectral approach to time domain diffuse optical tomography for breast cancer: validation on meat phantoms, file e0c31c0e-ba58-4599-e053-1705fe0aef77
|
65
|
|
Time resolved diffuse optical spectroscopy with geometrically accurate models for bulk parameter recovery, file e0c31c09-eb42-4599-e053-1705fe0aef77
|
62
|
|
Non-invasive investigation of adipose tissue by time domain diffuse optical spectroscopy, file e0c31c10-8272-4599-e053-1705fe0aef77
|
62
|
|
Multi-wavelength time domain diffuse optical tomography for breast cancer: initial results on silicone phantoms, file e0c31c0e-f466-4599-e053-1705fe0aef77
|
60
|
|
Three-dimensional bright-field microscopy with isotropic resolution based on multi-view acquisition and image fusion reconstruction, file e0c31c10-5a9a-4599-e053-1705fe0aef77
|
59
|
|
Effects of ultrasound impedance matching fluids on diffuse optical measurements, file e0c31c0e-876b-4599-e053-1705fe0aef77
|
52
|
|
Broadband time-resolved diffuse optical spectrometer for clinical diagnostics: Characterization and in-vivo measurements in the 600-1350 nm spectral range, file e0c31c09-64e0-4599-e053-1705fe0aef77
|
51
|
|
Thyroid tissue constituents characterization and application to in vivo studies by broadband (600-1200 nm) diffuse optical spectroscopy, file e0c31c0b-c67d-4599-e053-1705fe0aef77
|
51
|
|
Optical signatures of radiofrequency ablation in biological tissues, file e0c31c11-21ba-4599-e053-1705fe0aef77
|
50
|
|
Chromophore decomposition in multispectral time-resolved diffuse optical tomography, file e0c31c0b-73b3-4599-e053-1705fe0aef77
|
45
|
|
Time-domain diffuse optics: Towards next generation devices, file e0c31c09-5083-4599-e053-1705fe0aef77
|
42
|
|
Device and method for detecting time-resolved optical data, file e0c31c0f-9350-4599-e053-1705fe0aef77
|
40
|
|
Performance evaluation of time-domain multispectral diffuse optical tomography in the reflection geometry, file e0c31c0b-d5ca-4599-e053-1705fe0aef77
|
39
|
|
Multiple-view time-resolved diffuse optical tomography based on structured illumination and compressive detection, file e0c31c0c-8b94-4599-e053-1705fe0aef77
|
39
|
|
Non-contact time-domain imaging of functional brain activation and heterogeneity of superficial signals, file e0c31c0c-8e27-4599-e053-1705fe0aef77
|
36
|
|
Novel time-resolved camera based on compressed sensing, file e0c31c0f-27f0-4599-e053-1705fe0aef77
|
34
|
|
Neurophotonics: non-invasive optical techniques for monitoring brain functions, file e0c31c09-4354-4599-e053-1705fe0aef77
|
33
|
|
Diffuse optical tomography by using time-resolved single pixel camera, file e0c31c09-6932-4599-e053-1705fe0aef77
|
33
|
|
A multimodal imaging system hosting an innovative photonic module to improve breast cancer diagnosis: the SOLUS project, file e0c31c10-79a9-4599-e053-1705fe0aef77
|
32
|
|
Broadband optical spectroscopy of the human adipose and muscle tissues – An in-vivo pilot study, file e0c31c12-8611-4599-e053-1705fe0aef77
|
32
|
|
Time-Domain Diffuse Optics: the Dawn of Next-Generation Devices, file e0c31c09-5cd6-4599-e053-1705fe0aef77
|
31
|
|
An innovative 8 channels system for time-resolved diffuse optical tomography based on SiPMs, file e0c31c0a-8768-4599-e053-1705fe0aef77
|
29
|
|
Nondestructive optical detection of monomer uptake in wood polymer composites, file e0c31c0d-600d-4599-e053-1705fe0aef77
|
29
|
|
Time-domain Raman analytical forward solvers, file e0c31c09-e986-4599-e053-1705fe0aef77
|
26
|
|
A multi-laboratory comparison of photon migration instruments and their performances: the BitMap exercise, file e0c31c11-3098-4599-e053-1705fe0aef77
|
26
|
|
Key features in the optical properties of tissue during and after radiofrequency ablation, file e0c31c11-2924-4599-e053-1705fe0aef77
|
25
|
|
Diffuse optical tomography based on time-resolved compressive sensing, file e0c31c0c-494f-4599-e053-1705fe0aef77
|
16
|
|
Calculated optical properties of donor molecules based on benzo[1,2-b:4,5-b′]dithiophene and its derivatives, file e0c31c12-7e0e-4599-e053-1705fe0aef77
|
16
|
|
Systematic study of the effect of ultrasound gel on the performances of time-domain diffuse optics and diffuse correlation spectroscopy, file e0c31c0e-f45c-4599-e053-1705fe0aef77
|
15
|
|
Enlarged Field of View in Spatially Modulated Selective Volume Illumination Microscopy, file 0c0114ea-0466-4428-bbe0-8909e22302e2
|
14
|
|
Estimation of porcine pancreas optical properties in the 600–1100 nm wavelength range for light-based therapies, file 22c19e81-7e70-4fab-9e6f-397bb2a3a2e6
|
14
|
|
SOLUS: A novel multimodal approach to ultrasound and diffuse optics imaging of breast cancer, file e0c31c12-7e7e-4599-e053-1705fe0aef77
|
13
|
|
Time-domain diffuse optics using bioresorbable fibers: A proof-of-principle study, file e0c31c0b-ba80-4599-e053-1705fe0aef77
|
5
|
|
Spectral approach to time domain diffuse optical tomography for breast cancer: validation on meat phantoms, file e0c31c0e-bec2-4599-e053-1705fe0aef77
|
5
|
|
Emission engineering in germanium nanoresonators, file e0c31c08-244a-4599-e053-1705fe0aef77
|
4
|
|
Non-contact time-domain imaging of functional brain activation and heterogeneity of superficial signals, file e0c31c0b-4fec-4599-e053-1705fe0aef77
|
4
|
|
Thyroid tissue constituents characterization and application to in vivo studies by broadband (600-1200 nm) diffuse optical spectroscopy, file e0c31c0b-4fee-4599-e053-1705fe0aef77
|
4
|
|
Multiple-view time-resolved diffuse optical tomography based on structured illumination and compressive detection, file e0c31c0c-8b93-4599-e053-1705fe0aef77
|
4
|
|
Fast silicon photomultiplier improves signal harvesting and reduces complexity in time-domain diffuse optics, file e0c31c08-7931-4599-e053-1705fe0aef77
|
3
|
|
Broadband (600-1100 nm) diffuse optical characterization of thyroid tissue constituents and application to in vivo thyroid studies, file e0c31c0c-4161-4599-e053-1705fe0aef77
|
3
|
|
Novel technologies for time-domain diffuse optics: Miniaturized wearable devices and bioresorbable optical fibers, file e0c31c0c-9ae0-4599-e053-1705fe0aef77
|
3
|
|
Effects of ultrasound impedance matching fluids on diffuse optical measurements, file e0c31c0e-6148-4599-e053-1705fe0aef77
|
3
|
|
Solid heterogeneous phantoms for multimodal ultrasound and diffuse optical imaging: an outcome of the SOLUS project for standardization, file e0c31c0e-639b-4599-e053-1705fe0aef77
|
3
|
|
Systematic study of the effect of ultrasound gel on the performances of time-domain diffuse optics and diffuse correlation spectroscopy, file e0c31c0e-fe03-4599-e053-1705fe0aef77
|
3
|
|
Novel time-resolved camera based on compressed sensing, file e0c31c0f-2649-4599-e053-1705fe0aef77
|
3
|
|
Investigating the lung using time-resolved diffuse optics, file e0c31c12-7e7d-4599-e053-1705fe0aef77
|
3
|
|
Statistics of maximum photon penetration depth in a two-layer diffusive medium, file a96f6a53-5dd6-425d-876b-54b945587210
|
2
|
|
Emission engineering in germanium nanoresonators, file e0c31c08-1dcf-4599-e053-1705fe0aef77
|
2
|
|
Nondestructive optical detection of monomer uptake in wood polymer composites, file e0c31c08-25a5-4599-e053-1705fe0aef77
|
2
|
|
Time-domain diffuse optics: Towards next generation devices, file e0c31c09-5082-4599-e053-1705fe0aef77
|
2
|
|
In-vivo multilaboratory investigation of the optical properties of the human head, file e0c31c09-6064-4599-e053-1705fe0aef77
|
2
|
|
An innovative 8 channels system for time-resolved diffuse optical tomography based on SiPMs, file e0c31c0a-703b-4599-e053-1705fe0aef77
|
2
|
|
Chromophore decomposition in multispectral time-resolved diffuse optical tomography, file e0c31c0b-558d-4599-e053-1705fe0aef77
|
2
|
|
Performance evaluation of time-domain multispectral diffuse optical tomography in the reflection geometry, file e0c31c0b-59ac-4599-e053-1705fe0aef77
|
2
|
|
Quantification of effective absorption perturbations for time-resolved diffuse optical tomography with totally absorbing objects, file e0c31c0b-ab05-4599-e053-1705fe0aef77
|
2
|
|
Broadband diffuse optical characterization of elastin for biomedical applications, file e0c31c0c-444a-4599-e053-1705fe0aef77
|
2
|
|
Diffuse optical tomography based on time-resolved compressive sensing, file e0c31c0c-556b-4599-e053-1705fe0aef77
|
2
|
|
Time-resolved multi-dimensional fluorescence imaging using a Digital-Micromirror-Device and a SPAD-Array detector, file e0c31c0f-d9df-4599-e053-1705fe0aef77
|
2
|
|
32 Mcps time-correlated single photon counting with a single SPAD avoiding pile-up, file 3191aa30-6441-4875-9a11-0755679941f5
|
1
|
|
Optical Spectroscopy up to 1700 nm: a Time-Resolved Approach Combined with an InGaAs/InP Single-Photon Avalanche Diode, file e0c31c08-02f2-4599-e053-1705fe0aef77
|
1
|
| Totale |
8.046 |