| Nome |
# |
|
High homogeneity solenoidal magnet for cesium frequency standard, file e384c42d-e5c6-d4b2-e053-9f05fe0a1d67
|
782
|
|
Yb optical lattice clock at INRIM, file e384c42e-1443-d4b2-e053-9f05fe0a1d67
|
678
|
|
A Coherent Fiber Link
for Very Long Baseline Interferometry, file e384c42d-e98c-d4b2-e053-9f05fe0a1d67
|
603
|
|
Realization of an Ultrastable 578-nm Laser for an Yb Lattice Clock, file e384c42e-1c85-d4b2-e053-9f05fe0a1d67
|
592
|
|
Virtues and problems of the high C-field Cs beam frequency standard, file e384c42d-e50a-d4b2-e053-9f05fe0a1d67
|
507
|
|
A Large Area Fiber Optic Gyroscope on multiplexed fiber network, file e384c42e-2330-d4b2-e053-9f05fe0a1d67
|
475
|
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Efficient Frequency Doubling at 399nm, file e384c42e-2935-d4b2-e053-9f05fe0a1d67
|
440
|
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Low Noise Optical Link Development at INRIM, file e384c42e-1445-d4b2-e053-9f05fe0a1d67
|
438
|
|
DESIGN OF GRADIENT MAGNET SYSTEM FOR CS FREQUENCY STANDARD,, file e384c42d-e5c7-d4b2-e053-9f05fe0a1d67
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413
|
|
Doppler-stabilized fiber link with 6 dB noise improvement below the classical limit, file e384c42e-36af-d4b2-e053-9f05fe0a1d67
|
373
|
|
First Accuracy Evaluation of NIST-F2, file e384c42e-2b1d-d4b2-e053-9f05fe0a1d67
|
372
|
|
High-accuracy coherent optical frequency transfer over a doubled 642-km fiber link, file e384c42e-301d-d4b2-e053-9f05fe0a1d67
|
333
|
|
Ytterbium optical lattice clock at INRIM, file e384c42f-a94c-d4b2-e053-9f05fe0a1d67
|
330
|
|
Planar-Waveguide External Cavity Laser Stabilization for an Optical Link with 1E-19 Frequency Stability, file e384c42e-1686-d4b2-e053-9f05fe0a1d67
|
286
|
|
Geodesy and metrology with a transportable optical clock, file e384c42f-ed4b-d4b2-e053-9f05fe0a1d67
|
279
|
|
Measuring absolute frequencies beyond the GPS limit via long-haul optical frequency dissemination, file e384c42e-e676-d4b2-e053-9f05fe0a1d67
|
278
|
|
Accuracy evaluation of ITCsF2: a Nitrogen cooled Cesium Fountain, file e384c42e-301c-d4b2-e053-9f05fe0a1d67
|
256
|
|
Metrological characterization of INRIM's Yb lattice clock, file e384c42f-b158-d4b2-e053-9f05fe0a1d67
|
253
|
|
Absolute frequency measurement of the $^1 extS_0$ – $^3 extP_0$ transition of 171Yb, file e384c42f-5a2e-d4b2-e053-9f05fe0a1d67
|
168
|
|
LinkO: un’infrastruttura in fibra ottica per confronti remoti di tempo e frequenza ad alta accuratezza, file e384c42e-16d4-d4b2-e053-9f05fe0a1d67
|
143
|
|
A multi-disciplinary project to combine electronic design and photonics, file e384c434-305d-d4b2-e053-9f05fe0a1d67
|
41
|
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Generation of an ultrastable 578 nm laser for Yb lattice clock, file e384c42e-0a68-d4b2-e053-9f05fe0a1d67
|
23
|
|
A tunable UV spectrometer for Doppler broadening thermometry of mercury, file e384c431-eda2-d4b2-e053-9f05fe0a1d67
|
22
|
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Measurement of radiative decay and cold collisions trap losses in laser-cooled Ytterbium, file e384c42e-0a6a-d4b2-e053-9f05fe0a1d67
|
18
|
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Direct comparisons of European primary and secondary frequency standards via satellite techniques, file e384c431-4fab-d4b2-e053-9f05fe0a1d67
|
14
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Tracking DDS for Coherent Optical Links, file e384c42e-5e49-d4b2-e053-9f05fe0a1d67
|
11
|
|
Mixing UTCr and Cesium Fountain Measurements for the Generation of UTC(IT), file 6c3d34c6-0462-4969-a700-eaa44b507605
|
10
|
|
Accuracy evaluation of ITCsF2: a Nitrogen cooled Cesium Fountain, file e384c42e-301a-d4b2-e053-9f05fe0a1d67
|
9
|
|
Absolute frequency measurement of the $^1 extS_0$ – $^3 extP_0$ transition of 171Yb, file e384c433-9a4c-d4b2-e053-9f05fe0a1d67
|
8
|
|
Absolute frequency measurement of a Yb optical clock at the limit of the Cs fountain, file 1f843766-2a21-4212-864e-ad0495568217
|
7
|
|
Frequency noise characterization of diode lasers for vapor-cell clock applications, file 918d9666-2ba4-4813-bc4e-6bc789926a21
|
7
|
|
LIFT-the Italian link for time and frequency, file e384c42e-67f7-d4b2-e053-9f05fe0a1d67
|
7
|
|
Direct comparisons of European primary and secondary frequency standards via satellite techniques, file e384c432-2246-d4b2-e053-9f05fe0a1d67
|
6
|
|
Measuring absolute frequencies beyond the GPS limit via long-haul optical frequency dissemination, file e384c433-a11f-d4b2-e053-9f05fe0a1d67
|
6
|
|
High-accuracy measurement of the blackbody radiation frequency shift of the ground-state hyperfine transition in 133Cs, file e384c42e-2b1b-d4b2-e053-9f05fe0a1d67
|
5
|
|
A tunable UV spectrometer for Doppler broadening thermometry of mercury, file e384c432-7a5e-d4b2-e053-9f05fe0a1d67
|
5
|
|
A multi-disciplinary project to combine electronic design and photonics, file e384c434-0343-d4b2-e053-9f05fe0a1d67
|
4
|
|
IT-Yb1 Optical Lattice Clock: Absolute Frequency Measurement at the Cs Fountain Uncertainty Level, file 10744782-773e-4edb-9d56-0fa185f1441a
|
3
|
|
Direct Measurement of Laser Noise Spectrum with a Frequency-to-Voltage Converter, file 34ddee69-11b9-4a38-b36f-19f894da6c67
|
3
|
|
Coherent Optical-Fiber Link Across Italy and France, file 83056c0d-c647-452b-8837-45c0ad24f328
|
3
|
|
First Accuracy Evaluation of NIST-F2, file e384c42e-8395-d4b2-e053-9f05fe0a1d67
|
3
|
|
A tunable UV spectrometer for Doppler broadening thermometry of mercury, file e384c432-6469-d4b2-e053-9f05fe0a1d67
|
3
|
|
On-Line Tests of Real-Time Time Scale Generation Algorithms Based on a Primary Frequency Standard and a Clock Ensemble, file e384c434-ae84-d4b2-e053-9f05fe0a1d67
|
3
|
|
IT-Yb1 Optical Lattice Clock: Absolute Frequency Measurement at the Cs Fountain Uncertainty Level, file b2d93fa2-1b40-40f6-b41d-5c479f9f4fc0
|
2
|
|
Cryogenic Fountain Development at NIST and INRIM: Preliminary Characterization, file e384c42e-1444-d4b2-e053-9f05fe0a1d67
|
2
|
|
Active Disturbance Rejection Control of Temperature for Ultrastable Optical Cavities, file e384c42e-1ec5-d4b2-e053-9f05fe0a1d67
|
2
|
|
Frequency transfer via a two-way optical phase comparison on a multiplexed fiber network, file e384c42e-2b1a-d4b2-e053-9f05fe0a1d67
|
2
|
|
Yellow solid state laser for metrological applications, file e384c42e-2f95-d4b2-e053-9f05fe0a1d67
|
2
|
|
Planar-Waveguide External Cavity Laser Stabilization for an Optical Link with 1E-19 Frequency Stability, file e384c42e-8393-d4b2-e053-9f05fe0a1d67
|
2
|
|
Realization of an Ultrastable 578-nm Laser for an Yb Lattice Clock, file e384c42e-873b-d4b2-e053-9f05fe0a1d67
|
2
|
|
Preliminary step for a UTC(IT) steering algorithm based on the ITCsF2 primary frequency standard measurements, file e384c42e-d660-d4b2-e053-9f05fe0a1d67
|
2
|
|
Absolute frequency measurement of the 171Yb optical lattice clock at INRIM, file e384c42f-da68-d4b2-e053-9f05fe0a1d67
|
2
|
|
Frequency noise characterization of diode lasers for vapor-cell clock applications, file 2b70474a-50a1-4a87-ba6e-a83423cc00df
|
1
|
|
Mixing UTCr and Cesium Fountain Measurements for the Generation of UTC(IT), file c6fe2e0d-690f-45c3-ab99-007b268d4404
|
1
|
|
Direct Measurement of Laser Noise Spectrum with a Frequency-to-Voltage Converter, file ce97f739-cfa5-404a-9814-ac9b35ecc9ed
|
1
|
|
A Fiber Optic Gyroscope on Multiplexed Telecommunication Network with a Large Enclosed Area, file e384c42e-6979-d4b2-e053-9f05fe0a1d67
|
1
|
|
Erratum to: High-accuracy coherent optical frequency transfer over a doubled 642-km fiber link [Applied Physics B, 117, (2014), 979-986, DOI:10.1007/s00340-014-5917-8], file e384c431-de2e-d4b2-e053-9f05fe0a1d67
|
1
|
|
Optical frequency fiber dissemination at 10-19 uncertainty level in Italy, file e384c432-09a0-d4b2-e053-9f05fe0a1d67
|
1
|
|
Digital implementation of a two-way coherent phase transfer over optical fiber for remote clocks comparisons, file e384c432-09a1-d4b2-e053-9f05fe0a1d67
|
1
|
|
Direct comparisons of European primary and secondary frequency standards via satellite techniques, file e384c432-7540-d4b2-e053-9f05fe0a1d67
|
1
|
| Totale |
8.246 |
Archivio Istituzionale della Ricerca