Nome |
# |
Nanodiamonds-induced effects on neuronal firing of mouse hippocampal microcircuits, file dd2573c2-a459-e71c-e053-d805fe0ad5dc
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169
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Towards joint reconstruction of noise and losses in quantum channels, file dd2573c2-c1dd-e71c-e053-d805fe0ad5dc
|
88
|
Practical Applications of Quantum Sensing: A Simple Method to Enhance the Sensitivity of Nitrogen-Vacancy-Based Temperature Sensors, file dd2573c2-b5e3-e71c-e053-d805fe0ad5dc
|
84
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Spectral Emission Dependence of Tin‐Vacancy Centers in Diamond from Thermal Processing and Chemical Functionalization, file dd2573c3-00ac-e71c-e053-d805fe0ad5dc
|
80
|
Feasibility study towards comparison of the g (2)(0) measurement in the visible range, file dd2573c2-c665-e71c-e053-d805fe0ad5dc
|
75
|
Single-Photon Emitters in Lead-Implanted Single-Crystal Diamond, file dd2573c2-da22-e71c-e053-d805fe0ad5dc
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74
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Overcoming classical measurement limits through entanglement in photon number: an introduction, file dd2573c2-c4ad-e71c-e053-d805fe0ad5dc
|
70
|
Quantum enhanced correlated interferometry for quantum gravity tests: the experimental set-up and the locking scheme, file dd2573c2-c449-e71c-e053-d805fe0ad5dc
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63
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A biocompatible technique for magnetic field sensing at (sub)cellular scale using Nitrogen-Vacancy centers, file dd2573c2-cb0d-e71c-e053-d805fe0ad5dc
|
60
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Fluorine-based color centers in diamond, file dd2573c2-c4a1-e71c-e053-d805fe0ad5dc
|
58
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Electrical stimulation of non-classical photon emission from diamond color centers by means of sub-superficial graphitic electrodes, file dd2573c2-cde5-e71c-e053-d805fe0ad5dc
|
57
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Twin beam quantum-enhanced correlated interferometry for testing fundamental physics, file dd2573c2-c8c5-e71c-e053-d805fe0ad5dc
|
56
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Photo-physical properties of He-related color centers in diamond, file dd2573c2-c4b5-e71c-e053-d805fe0ad5dc
|
47
|
Spectral features of Pb-related color centers in diamond - a systematic photoluminescence characterization, file dd2573c2-ffab-e71c-e053-d805fe0ad5dc
|
38
|
Creation and characterization of He-related color centers in diamond, file dd2573c2-b627-e71c-e053-d805fe0ad5dc
|
36
|
Mapping the Local Spatial Charge in Defective Diamond by Means of N-
V
Sensors—A Self-Diagnostic Concept, file dd2573c2-c2c1-e71c-e053-d805fe0ad5dc
|
25
|
Quantum-optical characterization of single-photon emitters created by MeV proton irradiation of HPHT diamond nanocrystals, file dd2573c2-c76b-e71c-e053-d805fe0ad5dc
|
25
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Quantum and Classical Characterization of Single/Few Photon Detectors, file dd2573c2-c1da-e71c-e053-d805fe0ad5dc
|
24
|
Single-Photon-Emitting Optical Centers in Diamond Fabricated upon Sn Implantation, file dd2573c2-c2b2-e71c-e053-d805fe0ad5dc
|
20
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Is a Quantum Biosensing Revolution Approaching? Perspectives in NV‐Assisted Current and Thermal Biosensing in Living Cells, file dd2573c2-cdab-e71c-e053-d805fe0ad5dc
|
17
|
Direct experimental observation of nonclassicality in ensembles of single-photon emitters, file dd2573c2-c2b0-e71c-e053-d805fe0ad5dc
|
16
|
Electroluminescence from a diamond device with ion-beam-micromachined buried graphitic electrodes, file dd2573c2-c547-e71c-e053-d805fe0ad5dc
|
14
|
Single photon sources for quantum radiometry: a brief review about the current state-of-the-art, file ffe117d6-8687-47f2-bda9-d89e90eb251e
|
13
|
One- and two-mode squeezed light in correlated interferometry, file dd2573c2-814c-e71c-e053-d805fe0ad5dc
|
8
|
One- and two-mode squeezed light in correlated interferometry, file dd2573c2-cb4b-e71c-e053-d805fe0ad5dc
|
8
|
Creation and characterization of He-related color centers in diamond, file dd2573c2-8868-e71c-e053-d805fe0ad5dc
|
5
|
Efficiency Optimization of Ge‐V Quantum Emitters in Single‐Crystal Diamond upon Ion Implantation and HPHT Annealing, file ad48183e-3ae9-4aef-a590-c3559306c042
|
4
|
Native NIR-emitting single colour centres in CVD diamond, file dd2573c2-7087-e71c-e053-d805fe0ad5dc
|
4
|
Practical Applications of Quantum Sensing: A Simple Method to Enhance the Sensitivity of Nitrogen-Vacancy-Based Temperature Sensors, file dd2573c2-b5e4-e71c-e053-d805fe0ad5dc
|
4
|
null, file dd2573c2-c416-e71c-e053-d805fe0ad5dc
|
4
|
Towards European standards for quantum technologies, file a40d4679-ea5b-4f78-94f3-fec1739da281
|
3
|
Quantum and Classical Characterization of Single/Few Photon Detectors, file dd2573c2-c1d9-e71c-e053-d805fe0ad5dc
|
3
|
Mapping the Local Spatial Charge in Defective Diamond by Means of N-
V
Sensors—A Self-Diagnostic Concept, file dd2573c2-c2bf-e71c-e053-d805fe0ad5dc
|
3
|
Quantum-optical characterization of single-photon emitters created by MeV proton irradiation of HPHT diamond nanocrystals, file dd2573c2-c32f-e71c-e053-d805fe0ad5dc
|
3
|
Direct experimental observation of nonclassicality in ensembles of single-photon emitters, file dd2573c2-ce48-e71c-e053-d805fe0ad5dc
|
3
|
Single-Photon-Emitting Optical Centers in Diamond Fabricated upon Sn Implantation, file dd2573c2-ce4c-e71c-e053-d805fe0ad5dc
|
3
|
Nanodiamond-Quantum Sensors Reveal Temperature Variation Associated to Hippocampal Neurons Firing, file d6e688fe-17fd-4176-8d4f-127a400a1ac0
|
2
|
Self consistent, absolute calibration technique for photon number resolving detectors, file dd2573c2-61c8-e71c-e053-d805fe0ad5dc
|
2
|
Techniques for absolutely calibrating photon-number-resolving detectors with
uncertainty better than 1%, file dd2573c2-64e0-e71c-e053-d805fe0ad5dc
|
2
|
Photon number statistics of NV centre emission, file dd2573c2-7e81-e71c-e053-d805fe0ad5dc
|
2
|
Experimental quantum cryptography scheme based on orthogonal states, file dd2573c2-8f14-e71c-e053-d805fe0ad5dc
|
2
|
null, file dd2573c2-b724-e71c-e053-d805fe0ad5dc
|
2
|
Electroluminescence from a diamond device with ion-beam-micromachined buried graphitic electrodes, file dd2573c2-c546-e71c-e053-d805fe0ad5dc
|
2
|
Single-photon sources for quantum technologies - Results of the joint research project SIQUTE, file dd2573c2-ced6-e71c-e053-d805fe0ad5dc
|
2
|
FGQT Q04 - Standardization Roadmap on Quantum Technologies [written by the CEN-CENELEC Focus Group on Quantum Technologies (FGQT)], file 2891e2d4-f5e1-431f-93d2-93d7426dc67f
|
1
|
Orientation paper: suggestions to develop research projects in testing and measurements for the upcoming European Partnership on Metrology (EPM) Calls in 2024, file 4087311c-21e4-4cb6-8d0c-3608dde8dbe8
|
1
|
Study of W centers formation in silicon upon ion implantation and rapid thermal annealing, file 5ad77f0a-b1d7-4e2c-b529-bfcea4f0f200
|
1
|
Tuning of surface chemical and optical properties of nanodiamonds for biosensing and drug delivery applications, file 69656827-1696-4910-b7e1-d3bd367f797d
|
1
|
Optically Addressable Magnesium-Vacancy Color Centers in Diamond, file 6c91ceed-20a0-4d56-b18a-ea1ee31589d3
|
1
|
null, file 9588ef8e-9159-46dd-a64c-fa986636c4c2
|
1
|
Magnesium-Vacancy Optical Centers in Diamond, file cdcb96df-3357-4887-9a83-fea69ab9f67a
|
1
|
On the realization of high precision
interferometers for experimental Quantum
Information, file dd2573c2-63e4-e71c-e053-d805fe0ad5dc
|
1
|
Ti/Au TES as superconducting detector for quantum technologies, file dd2573c2-7566-e71c-e053-d805fe0ad5dc
|
1
|
null, file dd2573c2-c4a6-e71c-e053-d805fe0ad5dc
|
1
|
High sensitivity nitrogen-vacancy-assisted magnetic/electric field sensing at INRIM, file dd2573c2-c4dc-e71c-e053-d805fe0ad5dc
|
1
|
Metrology for Quantum Communication, file dd2573c2-c806-e71c-e053-d805fe0ad5dc
|
1
|
A quantum Interferometer for quantum gravity studies, file dd2573c2-ced4-e71c-e053-d805fe0ad5dc
|
1
|
Photon Statistics Modal Reconstruction by Detected and Undetected Light, file e8f384b8-6bef-49bd-ab4f-f6b6138cb8a4
|
1
|
Totale |
1.294 |