| Nome |
# |
|
Mapping the conductivity of graphene with Electrical Resistance Tomography, file dd2573c2-b13d-e71c-e053-d805fe0ad5dc
|
151
|
|
A correlation noise spectrometer for flicker noise measurement in graphene samples, file dd2573c2-a6e4-e71c-e053-d805fe0ad5dc
|
110
|
|
Practical Precision Electrical Impedance Measurement for the 21stCentury – EMPIR Project 17RPT04 VersICal, file dd2573c2-a6e3-e71c-e053-d805fe0ad5dc
|
103
|
|
null, file dd2573c2-d1e9-e71c-e053-d805fe0ad5dc
|
81
|
|
A new calibration setup for lock-in amplifiers in the low frequency range and its validation in a bilateral comparison, file dd2573c2-f93d-e71c-e053-d805fe0ad5dc
|
71
|
|
A simple algorithm to find the L-curve corner in the regularisation of ill-posed inverse problems, file dd2573c2-bd1f-e71c-e053-d805fe0ad5dc
|
66
|
|
A calibration-verification testbed for electrical energy meters under low power quality conditions, file dd2573c2-f539-e71c-e053-d805fe0ad5dc
|
66
|
|
A fully digital bridge towards the realization of the farad from the quantum Hall effect, file dd2573c2-be3c-e71c-e053-d805fe0ad5dc
|
64
|
|
Comparison of Low DC Current Traceability Methods and Gas Capacitors AC–DC Dependence, file dd2573c2-fc82-e71c-e053-d805fe0ad5dc
|
64
|
|
Traceable measurement of electrical impedance, file dd2573c2-d568-e71c-e053-d805fe0ad5dc
|
62
|
|
Mapping Time-Dependent Conductivity of Metallic Nanowire Networks by Electrical Resistance Tomography toward Transparent Conductive Materials, file dd2573c2-ba92-e71c-e053-d805fe0ad5dc
|
61
|
|
Self-compensating networks for four terminal-pair
impedance definition in current comparator bridges, file dd2573c2-ef73-e71c-e053-d805fe0ad5dc
|
59
|
|
A Comprehensive Analysis of Error Sources in Electronic Fully Digital Impedance Bridges, file dd2573c2-b4e6-e71c-e053-d805fe0ad5dc
|
56
|
|
Un laboratorio di taratura e verifica dei contatori elettrici anche in condizioni di scarsa Power Quality, file dd2573c2-ed3d-e71c-e053-d805fe0ad5dc
|
54
|
|
A quantum ampere, file dd2573c2-beb6-e71c-e053-d805fe0ad5dc
|
48
|
|
A Capacitance Build-Up Method to Determine LCR Meter Errors and Capacitance Transfer, file dd2573c2-bf0d-e71c-e053-d805fe0ad5dc
|
44
|
|
Metrology in electricity and magnetism: EURAMET activities today and tomorrow, file dd2573c2-9294-e71c-e053-d805fe0ad5dc
|
40
|
|
Normativa per le proprietà elettriche del grafene, file dd2573c2-c132-e71c-e053-d805fe0ad5dc
|
39
|
|
Smart Glasses for Visually Evoked Potential Applications: Characterisation of the Optical Output for Different Display Technologies, file dd2573c3-00b2-e71c-e053-d805fe0ad5dc
|
33
|
|
Recommended implementation of electrical resistance tomography for conductivity mapping of metallic nanowire networks using voltage excitation, file dd2573c3-00b0-e71c-e053-d805fe0ad5dc
|
31
|
|
Memristive devices for metrological applications, file 02daafcb-bb9c-4368-bb14-990bbcc0a263
|
30
|
|
Un derivatore di corrente simulato come campione di viaggiatore di resistenza elettrica di basso valore, file dd2573c2-7c06-e71c-e053-d805fe0ad5dc
|
30
|
|
Electrical Resistance Tomography of Conductive Thin Films, file dd2573c2-d57d-e71c-e053-d805fe0ad5dc
|
30
|
|
An international comparison of phase angle standards between the novel impedance bridges of CMI, INRIM and METAS, file dd2573c2-d656-e71c-e053-d805fe0ad5dc
|
28
|
|
A Setup for the Performance Characterization and Traceable Efficiency Measurement of Magnetostrictive Harvesters, file dd2573c2-dc44-e71c-e053-d805fe0ad5dc
|
25
|
|
Implementation of a graphene quantum Hall Kelvin bridge-on-a-chip for resistance calibrations, file dd2573c2-b40a-e71c-e053-d805fe0ad5dc
|
23
|
|
Reference data for Electrical Resistance Tomography, file 830075c7-86da-4577-8fa6-1201933450ba
|
21
|
|
Good Practice Guide on the electrical characterisation of graphene using contact
methods, file dd2573c2-bb33-e71c-e053-d805fe0ad5dc
|
20
|
|
Towards standardisation of contact and contactless electrical measurements of CVD graphene at the macro-, micro- and nano-scale, file dd2573c2-c14b-e71c-e053-d805fe0ad5dc
|
20
|
|
On the Calibration of Direct-Current Current Transformers (DCCT), file dd2573c2-d775-e71c-e053-d805fe0ad5dc
|
20
|
|
Un apparato criogenico per misure di effetto Hall quantistico in regime alternato, file dd2573c2-bc48-e71c-e053-d805fe0ad5dc
|
18
|
|
Il progetto GIQS: Graphene Impedance Quantum Standard, file dd2573c2-c05a-e71c-e053-d805fe0ad5dc
|
18
|
|
Tomography of memory engrams in self-organizing nanowire connectomes, file c55c09c9-8cea-4486-8a23-f752a1ff76a2
|
16
|
|
Experiences With a Two-Terminal-Pair Digital Impedance Bridge, file dd2573c2-d57b-e71c-e053-d805fe0ad5dc
|
14
|
|
On the synthesis of Quantum Hall Array Resistance Standards, file dd2573c2-d663-e71c-e053-d805fe0ad5dc
|
14
|
|
A Three-Arm Current Comparator Digitally Assisted Bridge for the Comparison of Arbitrary Four Terminal-Pair Impedances, file dd2573c2-db90-e71c-e053-d805fe0ad5dc
|
14
|
|
On the Calibration of Direct-Current Current Transformers (DCCT), file dd2573c2-61a0-e71c-e053-d805fe0ad5dc
|
12
|
|
Electrical Resistance Tomography of Conductive Thin Films, file dd2573c2-7c03-e71c-e053-d805fe0ad5dc
|
12
|
|
A Three-Arm Current Comparator Digitally Assisted Bridge for the Comparison of Arbitrary Four Terminal-Pair Impedances, file dd2573c2-9296-e71c-e053-d805fe0ad5dc
|
10
|
|
The EMPIR Project GIQS: Graphene Impedance Quantum Standard, file dd2573c2-b410-e71c-e053-d805fe0ad5dc
|
10
|
|
Comment on “Physics without determinism: Alternative interpretations of classical physics”, file dd2573c2-bd86-e71c-e053-d805fe0ad5dc
|
10
|
|
A coaxial cryogenic probe for quantum Hall effect measurements in the AC regime, file dd2573c2-c061-e71c-e053-d805fe0ad5dc
|
10
|
|
Laboratory reproduction of on-field low power quality conditions for the calibration/verification of electrical energy meters, file b511c323-8b7c-45ed-b79b-a10b8089cf03
|
9
|
|
Development of KI-TWPAs for the DARTWARS Project, file 91d46822-039e-4926-9200-c8f50fd04704
|
8
|
|
Development of KI-TWPAs for the DARTWARS Project, file da6c8e37-fa6d-400c-a265-fbbd3e498251
|
8
|
|
Metrologia dell'impedenza elettrica: il progetto Aim QuTE, file dd2573c2-9449-e71c-e053-d805fe0ad5dc
|
8
|
|
A Three-Arm Current Comparator Bridge for Impedance Comparisons Over the Complex Plane, file dd2573c2-d79e-e71c-e053-d805fe0ad5dc
|
8
|
|
Experimental Characterization of RF-SQUIDs Based Josephson Traveling Wave Parametric Amplifier Exploiting Resonant Phase Matching Scheme, file e8e7cd44-0b10-4a21-a87b-95bef74919d1
|
8
|
|
Un laboratorio per la riproduzione di condizioni di bassa power quality registrate sul campo per la taratura di contatori di energia attiva, file 04c74be1-1343-4772-8ff2-1fa20f78033e
|
7
|
|
Self-compensating networks for four terminal-pair
impedance definition in current comparator bridges, file dd2573c2-7cb3-e71c-e053-d805fe0ad5dc
|
6
|
|
Electrical Resistance Tomography on thin films: Sharp conductive profiles, file dd2573c2-9447-e71c-e053-d805fe0ad5dc
|
6
|
|
Comment on “Physics without determinism: Alternative interpretations of classical physics”, file dd2573c2-b64f-e71c-e053-d805fe0ad5dc
|
6
|
|
A calibration-verification testbed for electrical energy meters under low power quality conditions, file dd2573c2-feca-e71c-e053-d805fe0ad5dc
|
6
|
|
Confronti di resistenza con un ponte a comparatore di correnti criogenico, file dd2573c2-8c39-e71c-e053-d805fe0ad5dc
|
5
|
|
A new calibration setup for lock-in amplifiers in the low frequency range and its validation in a bilateral comparison, file dd2573c2-f948-e71c-e053-d805fe0ad5dc
|
5
|
|
Design and development of a coaxial cryogenic probe for precision measurements of the quantum Hall effect in the AC regime, file dd2573c2-ff87-e71c-e053-d805fe0ad5dc
|
5
|
|
Good practice guide on the graphene-based AC-QHE realization of the
farad, file ae09e45d-61ee-4a0c-b8f7-89122f79c136
|
4
|
|
On the linearisation of a measurement model – An objective legitimacy criterion, file d6216588-1c93-4959-aff8-eb224a876dec
|
4
|
|
Experiences With a Two-Terminal-Pair Digital Impedance Bridge, file dd2573c2-606c-e71c-e053-d805fe0ad5dc
|
4
|
|
On the synthesis of Quantum Hall Array Resistance Standards, file dd2573c2-607d-e71c-e053-d805fe0ad5dc
|
4
|
|
A Setup for the Performance Characterization and Traceable Efficiency Measurement of Magnetostrictive Harvesters, file dd2573c2-61ce-e71c-e053-d805fe0ad5dc
|
4
|
|
A Capacitance Build-Up Method to Determine LCR Meter Errors and Capacitance Transfer, file dd2573c2-b4f6-e71c-e053-d805fe0ad5dc
|
4
|
|
Role of plasma-induced defects in the generation of 1/f noise in graphene, file dd2573c2-f81e-e71c-e053-d805fe0ad5dc
|
4
|
|
An application of the capacitance build-up method to capacitance scaling, file f47b2268-f677-4c53-ad32-129fee89a51f
|
4
|
|
null, file 27d8dfc8-12dd-48d7-94c2-65f1919c4d2f
|
3
|
|
On the calibration of DC resistance ratio bridges, file 4dd5726a-68ed-48d3-a5c1-1697a42dfeff
|
3
|
|
Internal reflections and nonlinear effects interplay in non-ideal Josephson Travelling Wave Parametric Amplifiers, file 50274765-6b22-44ac-b7a9-72dada566459
|
3
|
|
Implementation of electrical resistance tomography for conductivity mapping of nanostructured transparent conductor materials, file b5881df7-442b-4e33-8781-3a681ba5fae5
|
3
|
|
Optical fiber interface for distributed measurement and control in metrology setups: application to current sensing with fA resolution, file dd2573c2-60fe-e71c-e053-d805fe0ad5dc
|
3
|
|
The European ACQHE Project: Modular System for the Calibration of Capacitance Standards based on the Quantum Hall Effect, file dd2573c2-6126-e71c-e053-d805fe0ad5dc
|
3
|
|
Traceable measurement of electrical impedance, file dd2573c2-73fb-e71c-e053-d805fe0ad5dc
|
3
|
|
Error sources in electronic fully-digital impedance bridges, file dd2573c2-bd13-e71c-e053-d805fe0ad5dc
|
3
|
|
Virtual Training Laboratory for Primary Impedance Metrology, file df8dd922-fb29-4ec2-982a-46f1c0e6f3da
|
3
|
|
Primary Realization of Inductance and Capacitance Scales With a Fully Digital Bridge, file 03a12ce8-d0d4-4712-900a-b07290ae480e
|
2
|
|
A laboratory for the reproduction of on-field low power quality for the calibration/verification of active energy meters, file 2415e506-c9ee-46fd-9c06-b170a9239e4a
|
2
|
|
Towards new IEC standards for the electrical characterization of graphene, file 373f4afb-e616-4baf-a66b-3d389de30481
|
2
|
|
Quantum model for rf-SQUID-based metamaterials enabling three-wave mixing and four-wave mixing traveling-wave parametric amplification, file 4e456ef0-e773-46fb-b244-dd3c77ff17fc
|
2
|
|
Memristive devices as a potential resistance standard, file 57d5ac64-596b-4d5a-ac9c-e3d8ebd47b85
|
2
|
|
Nonlinear Behavior of Josephson Traveling Wave Parametric Amplifiers, file 68e958d1-0513-4fa4-852d-b236cccbd443
|
2
|
|
Fundamentals of Measurement: Giovanni Giorgi and the International System of Units, file 781e4093-63cb-4913-a090-8c47d9a353a4
|
2
|
|
Metrological assessment of DC current comparator resistance bridges, file 86889f33-1579-4483-8bb6-e8a78f3d1047
|
2
|
|
Sistema automatico di taratura ZERA MTS310 e relativo software di controllo WinSAM: allestimenti circuitali e impostazione sequenze di misura, file 990f6953-2d0e-4cbe-b722-ba74b51d964b
|
2
|
|
A resistance comparator based on a long-scale digital voltmeter, file 9b4b6fa8-53b7-49aa-9022-009eded3e34c
|
2
|
|
Implementation of a graphene impedance quantum standard with an electronic fully digital impedance bridge, file aa9f1f58-74e0-4771-a17e-a14dbb027f57
|
2
|
|
A multiphase direct-digital-synthesis sinewave generator for high-accuracy impedance comparison, file dd2573c2-5e12-e71c-e053-d805fe0ad5dc
|
2
|
|
A digitally-assisted current comparator for audio frequency impedance scaling, file dd2573c2-5e57-e71c-e053-d805fe0ad5dc
|
2
|
|
Polyphase synthesizer for unlike-impedance intercomparison system, file dd2573c2-5fb0-e71c-e053-d805fe0ad5dc
|
2
|
|
A Three-Arm Current Comparator Bridge for Impedance Comparisons Over the Complex Plane, file dd2573c2-5fdb-e71c-e053-d805fe0ad5dc
|
2
|
|
A digitally-assisted current comparator bridge for impedance scaling at audio frequencies, file dd2573c2-6117-e71c-e053-d805fe0ad5dc
|
2
|
|
Matrix method analysis of quantum Hall effect device connections, file dd2573c2-6e54-e71c-e053-d805fe0ad5dc
|
2
|
|
Noise and correlation study of quantum Hall devices, file dd2573c2-6e5b-e71c-e053-d805fe0ad5dc
|
2
|
|
Conteggio di singoli elettroni per il campione di corrente elettrica, file dd2573c2-94e7-e71c-e053-d805fe0ad5dc
|
2
|
|
GRACE: Developing Electrical Characterisation Methods for Future Graphene Electronics, file dd2573c2-a10f-e71c-e053-d805fe0ad5dc
|
2
|
|
Comparison of calibration curves using the Lp norm, file dd2573c2-aa4e-e71c-e053-d805fe0ad5dc
|
2
|
|
Future trends in I&M: Connections with the universe, file dd2573c2-abad-e71c-e053-d805fe0ad5dc
|
2
|
|
Calibration of lock-in amplifiers in the low-frequency range, file dd2573c2-b417-e71c-e053-d805fe0ad5dc
|
2
|
|
An international comparison of phase angle standards between the novel impedance bridges of CMI, INRIM and METAS, file dd2573c2-d655-e71c-e053-d805fe0ad5dc
|
2
|
|
Mapping Time-Dependent Conductivity of Metallic Nanowire Networks by Electrical Resistance Tomography toward Transparent Conductive Materials, file dd2573c2-db00-e71c-e053-d805fe0ad5dc
|
2
|
|
Novel digital impedance bridges for the realization of the farad from graphene quantum standards, file 2b622805-998a-4855-a2b9-cf4bf0e71140
|
1
|
|
Metrological assessment of DC current comparator resistance bridges, file 489a038f-595f-434b-a125-d027b8e98e1b
|
1
|
| Totale |
1.914 |