Your search keyword '"Calonico, Davide"' showing total 36 results

1. Phase Noise in Real‐World Twin‐Field Quantum Key Distribution.

Author

Bertaina, Gianluca, Clivati, Cecilia, Donadello, Simone, Liorni, Carlo, Meda, Alice, Virzì, Salvatore, Gramegna, Marco, Genovese, Marco, Levi, Filippo, Calonico, Davide, Dispenza, Massimiliano, and Degiovanni, Ivo Pietro

Subjects

PHASE noise, QUANTUM communication, COMMUNICATION infrastructure, DISTRIBUTION (Probability theory)

Abstract

The impact of noise sources in real‐world implementations of twin‐field quantum key distribution (TF‐QKD) protocols is investigated, focusing on phase noise from photon sources and connecting fibers. This work emphasizes the role of laser quality, network topology, fiber length, arm balance, and detector performance in determining key rates. Remarkably, it reveals that the leading TF‐QKD protocols are similarly affected by phase noise despite different mechanisms. This study demonstrates duty cycle improvements of over a factor of two through narrow‐linewidth lasers and phase‐control techniques, highlighting the potential synergy with high‐precision time and frequency distribution services. Ultrastable lasers, evolving toward integration and miniaturization, offer promising solutions for agile TF‐QKD implementations on existing networks. Properly addressing phase noise and practical constraints allows for consistent key rate predictions, protocol selection, and layout design, crucial for establishing secure long‐haul links for the quantum communication infrastructures under development in several countries. [ABSTRACT FROM AUTHOR]

Published

2024

2. Erbium-Doped LiYF 4 as a Potential Solid-State Frequency Reference: Eligibility and Spectroscopic Assessment.

Author

Cerrato, Erik, Gionco, Chiara, Rizzelli Martella, Giuseppe, Clivati, Cecilia, Gaudino, Roberto, and Calonico, Davide

Subjects

FREQUENCY standards, OPTICAL spectroscopy, LOW temperatures, DOPING agents (Chemistry), SINGLE crystals

Abstract

Time and frequency metrology is a key enabler for both forefront science and innovation. At the moment, atomic frequency standards (AFSs) are based on atoms either in the vapor phase or trapped in magneto-optical lattices in a vacuum. Finding a solid-state material that contains atoms suitable to be used as a frequency reference would be an important step forward in the simplification of the setup of AFSs. Lanthanide-doped inorganic crystals, such as Er-doped LiYF4, have been studied for several decades, and their intrashell 4f transitions are usually identified as ultra-narrow. Nevertheless, a systematic characterization of these transitions and their linewidths with a correlation to the dopant's concentration and isotopic purity at low temperatures is lacking. In this work, we studied Er-doped LiYF4 as a potential benchmark material for solid-state frequency references. We chose Er as it has a set of transitions in the telecom band. The influence of Er concentrations and isotope purity on the transition linewidth was systematically studied using high-resolution optical spectroscopy at 5 K. The results indicate that the material under study is an interesting potential candidate as a solid-state frequency reference, having transition linewidths as low as 250 MHz at ~1530 nm. [ABSTRACT FROM AUTHOR]

Published

2023

3. Absolute frequency measurement of a Yb optical clock at the limit of the Cs fountain.

Author

Goti, Irene, Condio, Stefano, Clivati, Cecilia, Risaro, Matias, Gozzelino, Michele, Costanzo, Giovanni A, Levi, Filippo, Calonico, Davide, and Pizzocaro, Marco

Published

2023

4. Coherent phase transfer for real-world twin-field quantum key distribution.

Author

Clivati, Cecilia, Meda, Alice, Donadello, Simone, Virzì, Salvatore, Genovese, Marco, Levi, Filippo, Mura, Alberto, Pittaluga, Mirko, Yuan, Zhiliang, Shields, Andrew J., Lucamarini, Marco, Degiovanni, Ivo Pietro, and Calonico, Davide

Subjects

COHERENCE (Physics), QUANTUM communication, RIVER channels, OPTICAL communications, QUANTUM mechanics, COST control

Abstract

Quantum mechanics allows distribution of intrinsically secure encryption keys by optical means. Twin-field quantum key distribution is one of the most promising techniques for its implementation on long-distance fiber networks, but requires stabilizing the optical length of the communication channels between parties. In proof-of-principle experiments based on spooled fibers, this was achieved by interleaving the quantum communication with periodical stabilization frames. In this approach, longer duty cycles for the key streaming come at the cost of a looser control of channel length, and a successful key-transfer using this technique in real world remains a significant challenge. Using interferometry techniques derived from frequency metrology, we develop a solution for the simultaneous key streaming and channel length control, and demonstrate it on a 206 km field-deployed fiber with 65 dB loss. Our technique reduces the quantum-bit-error-rate contributed by channel length variations to <1%, representing an effective solution for real-world quantum communications. Exploiting technologies derived from the optical clocks community, the authors demonstrate a setup for twin-field QKD which extends the coherence times by three orders of magnitude, overcoming the main challenge towards real-world implementation. [ABSTRACT FROM AUTHOR]

Published

2022

5. Coherent phase transfer for real-world twin-field quantum key distribution.

Author

Clivati, Cecilia, Meda, Alice, Donadello, Simone, Virzì, Salvatore, Genovese, Marco, Levi, Filippo, Mura, Alberto, Pittaluga, Mirko, Yuan, Zhiliang, Shields, Andrew J., Lucamarini, Marco, Degiovanni, Ivo Pietro, and Calonico, Davide

Subjects

QUANTUM communication, RIVER channels, OPTICAL communications, COHERENCE (Physics), QUANTUM mechanics, COST control

Abstract

Quantum mechanics allows distribution of intrinsically secure encryption keys by optical means. Twin-field quantum key distribution is one of the most promising techniques for its implementation on long-distance fiber networks, but requires stabilizing the optical length of the communication channels between parties. In proof-of-principle experiments based on spooled fibers, this was achieved by interleaving the quantum communication with periodical stabilization frames. In this approach, longer duty cycles for the key streaming come at the cost of a looser control of channel length, and a successful key-transfer using this technique in real world remains a significant challenge. Using interferometry techniques derived from frequency metrology, we develop a solution for the simultaneous key streaming and channel length control, and demonstrate it on a 206 km field-deployed fiber with 65 dB loss. Our technique reduces the quantum-bit-error-rate contributed by channel length variations to <1%, representing an effective solution for real-world quantum communications. Exploiting technologies derived from the optical clocks community, the authors demonstrate a setup for twin-field QKD which extends the coherence times by three orders of magnitude, overcoming the main challenge towards real-world implementation. [ABSTRACT FROM AUTHOR]

Published

2022

6. Extensive cosmic showers detection: the importance of timing and the role of GPS in the EEE experiment.

Author

Cerretto, Giancarlo, Calonico, Davide, Cantoni, Elena, Levi, Filippo, Mura, Alberto, and Sellone, Marco

Abstract

Extreme Energy Events (EEE) is an extended Cosmic Rays (CRs) Observatory, composed of about 60 tracking telescopes spread over more than 10 degrees in Latitude and Longitude. We present the metrological characterization of a representative set of actually installed EEE GPS receivers, their calibration and their comparison with respect to dual-frequency receivers for timing applications, as well as plans for a transportable measurement system to calibrate the currently deployed GPS receivers. Finally, the realization of an INRIM Laboratory dedicated to EEE, aimed at hosting reference telescopes and allowing timing studies for Particle Physics/Astrophysics experiments, is presented, as well as the possibility of synchronizing already deployed telescopes utilizing White Rabbit Technique, over optical fiber links, directly with the Universal Time Coordinated time scale, as realized by INRIM (UTC(IT)). [ABSTRACT FROM AUTHOR]

Published

2021

7. Toward Fully‐Fledged Quantum and Classical Communication Over Deployed Fiber with Up‐Conversion Module.

Author

Bacco, Davide, Vagniluca, Ilaria, Cozzolino, Daniele, Friis, Søren M. M., Høgstedt, Lasse, Giudice, Andrea, Calonico, Davide, Cataliotti, Francesco Saverio, Rottwitt, Karsten, and Zavatta, Alessandro

Subjects

QUANTUM communication, QUANTUM cryptography, DATA encryption, LIGHT propagation, PHOTON detectors

Abstract

Quantum key distribution (QKD), the distribution of quantum secured keys useful for data encryption, is expected to have a crucial impact in the next decades. However, despite the notable achievements accomplished in the last 20 years, many practical and serious challenges are limiting the full deployment of this novel quantum technology in the current telecommunication infrastructures. In particular, the co‐propagation of quantum signals and high‐speed data traffic within the same optical fiber is not completely resolved, due to the intrinsic noise caused by the high‐intensity of the classical signals. As a consequence, current co‐propagation schemes limit the amount of classical optical power in order to reduce the overall link noise. However, this ad‐hoc solution restrains the range of possibilities for a large scale QKD deployment. Here, a new method, based on up‐conversion assisted receiver, for co‐propagating classical light and QKD signals is proposed and demonstrated. In addition, its performances are compared with an off‐the‐shelf quantum receiver, equipped with a standard single‐photon detector, over different lengths of an installed fiber link. The authors' proposal exhibits higher tolerance for noise in comparison to the standard receiver, thus enabling the distribution of secret keys in the condition of 4 dB‐higher classical power. [ABSTRACT FROM AUTHOR]

Published

2021

8. Exploring the foundations of the physical universe with space tests of the equivalence principle.

Author

Battelier, Baptiste, Bergé, Joël, Bertoldi, Andrea, Blanchet, Luc, Bongs, Kai, Bouyer, Philippe, Braxmaier, Claus, Calonico, Davide, Fayet, Pierre, Gaaloul, Naceur, Guerlin, Christine, Hees, Aurélien, Jetzer, Philippe, Lämmerzahl, Claus, Lecomte, Steve, Le Poncin-Lafitte, Christophe, Loriani, Sina, Métris, Gilles, Nofrarias, Miquel, and Rasel, Ernst

Subjects

UNIVERSE, ACCELEROMETERS, MOTIVATION (Psychology)

Abstract

We present the scientific motivation for future space tests of the equivalence principle, and in particular the universality of free fall, at the 10− 17 level or better. Two possible mission scenarios, one based on quantum technologies, the other on electrostatic accelerometers, that could reach that goal are briefly discussed. This publication is a White Paper written in the context of the Voyage 2050 ESA Call for White Papers. [ABSTRACT FROM AUTHOR]

Published

2021

9. Absolute frequency measurement of the 1S0–3P0 transition of 171Yb with a link to international atomic time.

Author

Pizzocaro, Marco, Bregolin, Filippo, Barbieri, Piero, Rauf, Benjamin, Levi, Filippo, and Calonico, Davide

Published

2020

10. Passively stable distribution of polarisation entanglement over 192 km of deployed optical fibre.

Author

Wengerowsky, Sören, Joshi, Siddarth Koduru, Steinlechner, Fabian, Zichi, Julien R., Liu, Bo, Scheidl, Thomas, Dobrovolskiy, Sergiy M., Molen, René van der, Los, Johannes W. N., Zwiller, Val, Versteegh, Marijn A. M., Mura, Alberto, Calonico, Davide, Inguscio, Massimo, Zeilinger, Anton, Xuereb, André, and Ursin, Rupert

Abstract

Quantum key distribution (QKD) based on entangled photon pairs holds the potential for repeater-based quantum networks connecting clients over long distance. We demonstrate long-distance entanglement distribution by means of polarisation-entangled photon pairs through two successive deployed 96 km-long telecommunications fibres in the same submarine cable. One photon of each pair was detected directly after the source, while the other travelled the fibre cable in both directions for a total distance of 192 km and attenuation of 48 dB. The observed two-photon Bell state exhibited a fidelity 85 ± 2% and was stable over several hours. We employed neither active stabilisation of the quantum state nor chromatic dispersion compensation for the fibre. [ABSTRACT FROM AUTHOR]

Published

2020

11. Entanglement distribution over a 96-km-long submarine optical fiber.

Author

Wengerowsky, Sören, Joshi, Siddarth Koduru, Steinlechner, Fabian, Zichi, Julien R., Dobrovolskiy, Sergiy M., van der Molen, René, Los, Johannes W. N., Zwiller, Val, Versteegh, Marijn A. M., Mura, Alberto, Calonico, Davide, Inguscio, Massimo, Hübel, Hannes, Liu Bo, Scheidl, Thomas, Zeilinger, Anton, Xuereb, André, and Ursin, Rupert

Subjects

QUANTUM entanglement, OPTICAL fibers, QUANTUM communication, CRYPTOGRAPHY, PHOTON pairs

Abstract

Quantum entanglement is one of the most extraordinary effects in quantum physics, with many applications in the emerging field of quantum information science. In particular, it provides the foundation for quantum key distribution (QKD), which promises a conceptual leap in information security. Entanglement-based QKD holds great promise for future applications owing to the possibility of device-independent security and the potential of establishing global-scale quantum repeater networks. While other approaches to QKD have already reached the level of maturity required for operation in absence of typical laboratory infrastructure, comparable field demonstrations of entanglement-based QKD have not been performed so far. Here, we report on the successful distribution of polarization-entangled photon pairs between Malta and Sicily over 96 km of submarine optical telecommunications fiber. We observe around 257 photon pairs per second, with a polarization visibility above 90%. Our results show that QKD based on polarization entanglement is now indeed viable in long-distance fiber links. This field demonstration marks the longest-distance distribution of entanglement in a deployed telecommunications network and demonstrates an international submarine quantum communication channel. This opens up myriad possibilities for future experiments and technological applications using existing infrastructure. [ABSTRACT FROM AUTHOR]

Published

2019

12. Ultrastable laser interferometry for earthquake detection with terrestrial and submarine cables.

Author

Marra, Giuseppe, Clivati, Cecilia, Luckett, Richard, Tampellini, Anna, Kronjäger, Jochen, Wright, Louise, Mura, Alberto, Levi, Filippo, Robinson, Stephen, Xuereb, André, Baptie, Brian, and Calonico, Davide

Published

2018

13. Metrological characterization of INRIM's Yb lattice clock.

Author

Rauf, Benjamin, Pizzocaro, Marco, Thoumany, Pierre, Milani, Gianmaria, Bregolin, Filippo, Gozzelino, Michele, Calonico, Davide, Costanzo, Giovanni Antonio, Clivati, Cecilia, and Levi, Filippo

Published

2016

14. Comb-assisted cavity ring-down spectroscopy of a buffer-gas-cooled molecular beam.

Author

Santamaria, Luigi, Sarno, Valentina Di, Natale, Paolo De, Rosa, Maurizio De, Inguscio, Massimo, Mosca, Simona, Ricciardi, Iolanda, Calonico, Davide, Levi, Filippo, and Maddaloni, Pasquale

Abstract

We demonstrate continuous-wave cavity ring-down spectroscopy of a partially hydrodynamic molecular beam emerging from a buffer-gas-cooling source. Specifically, the (ν1 + ν3) vibrational overtone band of acetylene (C2H2) around 1.5 μm is accessed using a narrow-linewidth diode laser stabilized against a GPS-disciplined rubidium clock via an optical frequency comb synthesizer. As an example, the absolute frequency of the R(1) component is measured with a fractional accuracy of ∼1 × 10−9. Our approach represents the first step towards the extension of more sophisticated cavity-enhanced interrogation schemes, including saturated absorption cavity ring-down or two-photon excitation, to buffer-gas-cooled molecular beams. [ABSTRACT FROM AUTHOR]

Published

2016

15. A coherent fiber link for very long baseline interferometry.

Author

Clivati, Cecilia, Costanzo, Giovanni A., Frittelli, Matteo, Levi, Filippo, Mura, Alberto, Zucco, Massimo, Ambrosini, Roberto, Bortolotti, Claudio, Perini, Federico, Roma, Mauro, and Calonico, Davide

Subjects

VERY long baseline interferometry, RADIO astronomy, OPTICAL fibers, HIDDEN Markov models, LASERS

Abstract

We realize a coherent fiber link for application in very long baseline interferometry (VLBI) for radio astronomy and geodesy. A 550-km optical fiber connects the Italian National Metrological Institute (INRIM) to a radio telescope in Italy and is used for the primary Cs fountain clock stability and accuracy dissemination. We use an ultrastable laser frequency- referenced to the primary standard as a transfer oscillator; at the radio telescope, an RF signal is generated from the laser by using an optical frequency comb. This scheme now provides the traceability of the local maser to the SI second, realized by the Cs fountain at the 1.7 ? 10?16 accuracy. The fiber link never limits the experiment and is robust enough to sustain radio astronomical campaigns. This experiment opens the possibility of replacing the local hydrogen masers at the VLBI sites with optically-synthesized RF signals. This could improve VLBI resolution by providing more accurate and stable frequency references and, in perspective, by enabling common- clock VLBI based on a network of telescopes connected by fiber links. [ABSTRACT FROM AUTHOR]

Published

2015

16. Lasers, Cold Atoms and Atomic Clocks: Realizing the Second Today.

Author

Calonico, Davide

Subjects

TIME, ATOMIC clocks, ATOMIC frequency standards, NUCLEAR clocks, ATOMIC physics

Abstract

The time is the physical quantity that mankind could measure with the best accuracy, thanks to the properties of the atomic physics, as the present definition of time is based on atomic energy transitions. This short review gives some basic information on the heart of the measurement of time in the contemporary world, i.e. the atomic clocks, and some trends related. [ABSTRACT FROM AUTHOR]

Published

2013

17. Improved set-up for the ytterbium optical clock at INRIM.

Author

Pizzocaro, Marco, Bregolin, Filippo, Calonico, Davide, Costanzo, Giovanni Antonio, Levi, Filippo, and Lorini, Luca

Abstract

We present an upgraded setup for cooling and trapping of ytterbium atoms in a optical clock experiment. The experiment aims to cool and trap ytterbium atoms in a two stage magneto-optical trap (MOT) (at 399nm and 556nm for the first and second stage, respectively) and to probe the narrow-line clock transition at 578 nm in an optical lattice at the magic wavelength (759 nm). We describe here the generation of all the laser sources and the design of a new physic package, including the vacuum chamber and the atomic source. [ABSTRACT FROM PUBLISHER]

Published

2013

18. Optical frequency link between Torino and Firenze for remote comparison between Yb and Sr optical clocks.

Author

Calonico, Davide, Clivati, Cecilia, Costanzo, Giovanni A., Godone, Aldo, Levi, Filippo, Marchetti, Marco, Mura, Alberto, Prevedelli, Marco, Schioppo, Marco, Tino, Guglielmo M., Zucco, Massimo E., and Poli, Nicola

Abstract

The Italian Institute of Metrology (INRIM), the European Laboratory for NonLinear Spectroscopy (LENS), the Physics and Astronomy Department of the University of Firenze (UNIFI) and the Politecnico of Torino started a project to establish a 650 km optical fiber link that will enable remote frequency comparisons between high accuracy microwave and optical clocks of INRIM and UNIFI-LENS and an absolute measurement of the UNIFI-LENS Sr clock versus INRIM Cesium fountains. We report the overall architecture of the project, the present status of the experiment and the preliminary tests performed on the equipments. [ABSTRACT FROM PUBLISHER]

Published

2012

19. Active Disturbance Rejection Control: Application to the temperature stabilization of ultra-stable cavities.

Author

Pizzocaro, Marco, Calonico, Davide, Calosso, Claudio, Clivati, Cecilia, Costanzo, Giovanni Antonio, Levi, Filippo, and Mura, Alberto

Abstract

The examples of controls in a high-precision scientific laboratory are countless and most scientific applications rely on controls of the powerful proportional-integral-derivative (PID), first introduced by Minorsky in 1922. In recent years a novel Active Disturbance Rejection Control (ADRC) has been proposed. The ADRC is a linear, simple, intuitive, and inherently robust form of control. It is based on a linear extended state observer (LESO) that estimates and compensates the disturbance of the system in real time with a certain bandwidth. The bandwidths of the control and of the observer are the only parameters needed for tuning. The design of the ADRC is model independent and requires only some approximate knowledge of the fast frequency response of the system. We applied the ADRC to the stabilization of the temperature of optical ultra-stable cavities. Such cavities are used for laser frequency stabilization for high-resolution spectroscopy and in optical clocks. In our case a 578 nm yellow laser is locked to the cavities and it will be used for the spectroscopy of ytterbium atoms. The temperature of the cavities has to be stabilized to prevent drift in their length and thus in the frequency of the laser. We will present the details of the ADRC and show the performance of the temperature stabilization. The ADRC shows attractive features that motivates our choice: it is easy to design and to implement digitally, insensitive to environmental changes, and avoids typical problems encountered with PID like overshoots and integral windup. [ABSTRACT FROM PUBLISHER]

Published

2012

20. LATTICE YB OPTICAL CLOCK AND CRYOGENIC Cs FOUNTAIN AT INRIM.

Author

LEVI, FILIPPO, CALONICO, DAVIDE, LORINI, LUCA, CALOSSO, CLAUDIO, BERTACCO, ELIO K., GODONE, ALDO, and COSTANZO, GIOVANNI A.

Subjects

YTTERBIUM, OPTICAL lattices, CRYOGENICS, FREQUENCY standards, SPIN exchange

Published

2009

21. Author Correction: Coherent phase transfer for real-world twin-field quantum key distribution.

Author

Clivati, Cecilia, Meda, Alice, Donadello, Simone, Virzì, Salvatore, Genovese, Marco, Levi, Filippo, Mura, Alberto, Pittaluga, Mirko, Yuan, Zhiliang, Shields, Andrew J., Lucamarini, Marco, Degiovanni, Ivo Pietro, and Calonico, Davide

Subjects

COHERENT states, INTERNET publishing

Abstract

The original article can be found online at https://doi.org/10.1038/s41467-021-27808-1. In this article, the funding from 'the project EMPIR 19NRM06 METISQ - this project received funding from the EMPIR program co-financed by the Participating States and from the European Union Horizon 2020 research and innovation program'. was omitted. [Extracted from the article]

Published

2022

22. Active disturbance rejection control of temperature for ultrastable optical cavities.

Author

Pizzocaro, Marco, Calonico, Davide, Calosso, Claudio, Clivati, Cecilia, Costanzo, Giovanni, Levi, Filippo, and Mura, Alberto

Subjects

THERMAL analysis, TEMPERATURE effect, STABILITY (Mechanics), TEMPERATURE control, TEMPERATURE measurements, FABRY-Perot interferometers

Abstract

This paper describes the application of a novel active disturbance rejection control (ADRC) to the stabilization of the temperature of two ultra-stable Fabry–Perot cavities. The cavities are 10 cm long and entirely made of ultralow- expansion glass. The control is based on a linear extended state observer that estimates and compensates the disturbance in the system in real time. The resulting control is inherently robust and easy to tune. A digital implementation of ADRC gives a temperature instability of 200 μK at one day of integration time. [ABSTRACT FROM PUBLISHER]

Published

2013

23. Cryogenic Fountain Development at NIST and INRIM: Preliminary Characterization.

Author

Levi, Filippo, Calosso, Claudio, Calonico, Davide, Lorini, Luca, Bertacco, Elio K., Godone, Aldo, Costanzo, Giovanni A., Mongino, Barbara, Jefferts, Steven R., Heavner, Thomas P., and Donley, Elizabeth A.

Subjects

LOW temperature engineering, ATOMIC clocks, LASERS, MICROWAVES, BLACKBODY radiation, ZEEMAN effect

Abstract

This paper describes the new twin laser-cooled Cs fountain primary frequency standards NIST-F2 and ITCsF2, and presents some of their design features. Most significant is a cryogenic microwave interrogation region which dramatically reduces the blackbody radiation shift. We also present a preliminary accuracy evaluation of IT-CsF2. [ABSTRACT FROM AUTHOR]

Published

2010

24. Microwave Leakage-Induced Frequency Shifts in the Primary Frequency Standards NIST-F1 and IEN-CSF1.

Author

Shirley, Jon H., Levi, Filippo, Heavner, Thomas P., Calonico, Davide, Dai-Hyuk Yu, and Jefferts, Steve R.

Subjects

MICROWAVE devices, MICROWAVE circuits, FREQUENCY standards, HYPERFINE interactions, ELECTRONIC excitation, ATOMS

Abstract

In atomic fountain primary frequency standards, the atoms ideally are subjected to microwave fields resonant with the ground-state, hyperfine splitting only during the two pulses of Ramsey's separated oscillatory field measurement scheme. As a practical matter, however, stray microwave fields can be present that shift the frequency of the central Ramsey fringe and, therefore, adversely affect the accuracy of the standard. We investigate these uncontrolled stray fields here and show that the frequency errors can be measured, and indeed even the location within the standard determined by the behavior of the measured frequency with respect to microwave power in the Ramsey cavity. Experimental results that agree with the theory are presented as well. [ABSTRACT FROM AUTHOR]

Published

2006

25. IEN-CsF1 Accuracy Evaluation and Two-Way Frequency Comparison.

Author

Levi, Filippo, Lorini, Luca, Calonico, Davide, and Godone, Aldo

Subjects

FREQUENCY standards, FREQUENCY stability, ENGINEERING standards, ATOMIC frequency standards, FREQUENCIES of oscillating systems measurement

Abstract

In this paper we report the accuracy evaluation of the Italian primary frequency standard IEN-CsF1. We discuss the shifts the frequency standard is corrected for and the procedure used for the accuracy evaluation. In the last section we report frequency comparisons of our fountain with those of remote laboratories and with International Atomic Time. [ABSTRACT FROM AUTHOR]

Published

2004

26. Systematic Shift Uncertainty Evaluation of IEN CSF1 Primary Frequency Standard.

Author

Levi, Filippo, Lorini, Luca, Calonico, Davide, and Godone, Aldo

Subjects

CESIUM, FREQUENCY stability, ATOMS, PLASMA confinement, TRAPPED-particle instabilities

Abstract

Presents a study that reported a preliminary systematic shift uncertainty evaluation of cesium fountain and of the first comparison with the National Institute of Standard and Technology (NIST)-F1 clock of the NIST with a two way satellite comparison system. Experimental setup and operation cycle; Results of the frequency shifts uncertainty evaluation; Conclusion.

Published

2003

27. Back Cover: Toward Fully‐Fledged Quantum and Classical Communication Over Deployed Fiber with Up‐Conversion Module (Adv. Quantum Technol. 7/2021).

Author

Bacco, Davide, Vagniluca, Ilaria, Cozzolino, Daniele, Friis, Søren M. M., Høgstedt, Lasse, Giudice, Andrea, Calonico, Davide, Cataliotti, Francesco Saverio, Rottwitt, Karsten, and Zavatta, Alessandro

Subjects

QUANTUM communication, QUANTUM chemistry

Published

2021

28. Field trial of a three-state quantum key distribution scheme in the Florence metropolitan area.

Author

Bacco, Davide, Vagniluca, Ilaria, Da Lio, Beatrice, Biagi, Nicola, Della Frera, Adriano, Calonico, Davide, Toninelli, Costanza, Cataliotti, Francesco S., Bellini, Marco, Oxenløwe, Leif K., and Zavatta, Alessandro

Subjects

METROPOLITAN areas, TELECOMMUNICATION systems, TECHNOLOGICAL innovations, SYNCHRONIZATION

Abstract

In-field demonstrations in real-world scenarios boost the development of a rising technology towards its integration in existing infrastructures. Although quantum key distribution (QKD) devices are already adopted outside the laboratories, current field implementations still suffer from high costs and low performances, preventing this emerging technology from a large-scale deployment in telecommunication networks. Here we present a simple, practical and efficient QKD scheme with finite-key analysis, performed over a 21 dB-losses fiber link installed in the metropolitan area of Florence (Italy). Coexistence of quantum and weak classical communication is also demonstrated by transmitting an optical synchronization signal through the same fiber link. [ABSTRACT FROM AUTHOR]

Published

2019

29. Broadband geodetic VLBI system and its application to optical clock comparison.

Author

Sekido, Mamoru, Takefuji, Kazuhiro, Ujihara, Hideki, Tsutsumi, Masanori, Kondo, Tetsuro, Kawai, Eiji, Ichikawa, Ryuichi, Hachisu, Hidekazu, Nemitz, Nils, Ido, Tetsuya, Pizzocaro, Marco, Bregolin, Filippo, Levi, Filippo, Mura, Alberto, Clivati, Cecilia, Cerretto, Giancalo, Calonico, Davide, Perini, Federico, Negusini, Monia, and Ricci, Roberto

Published

2019

30. A global network for underwater earthquake detection using the existing submarine optical fibre network.

Author

Marra, Giuseppe, Clivati, Cecilia, Luckett, Richard, Tampellini, Anna, Kronjäger, Jochen, Wright, Louise, Mura, Alberto, Levi, Filippo, Robinson, Stephen, Xuereb, André, Baptie, Brian, and Calonico, Davide

Published

2019

31. 650-km fiber link for optical frequency dissemination and remote clocks comparison in Italy.

Author

Clivati, Cecilia, Calosso, Claudio E., Frittelli, Matteo, Godone, Aldo, Mura, Alberto, Levi, Filippo, Zucco, Massimo, Calonico, Davide, Sutyrin, Denis V., Tino, Guglielmo, Poli, Nicola, and Costanzo, Giovanni A.

Published

2014

32. A VLBI experiment using a remote atomic clock via a coherent fibre link.

Author

Clivati, Cecilia, Ambrosini, Roberto, Artz, Thomas, Bertarini, Alessandra, Bortolotti, Claudio, Frittelli, Matteo, Levi, Filippo, Mura, Alberto, Maccaferri, Giuseppe, Nanni, Mauro, Negusini, Monia, Perini, Federico, Roma, Mauro, Stagni, Matteo, Zucco, Massimo, and Calonico, Davide

Abstract

We describe a VLBI experiment in which, for the first time, the clock reference is delivered from a National Metrology Institute to a radio telescope using a coherent fibre link 550 km long. The experiment consisted of a 24-hours long geodetic campaign, performed by a network of European telescopes; in one of those (Medicina, Italy) the local clock was alternated with a signal generated from an optical comb slaved to a fibre-disseminated optical signal. The quality of the results obtained with this facility and with the local clock is similar: interferometric fringes were detected throughout the whole 24-hours period and it was possible to obtain a solution whose residuals are comparable to those obtained with the local clock. These results encourage further investigation of the ultimate VLBI performances achievable using fibre dissemination at the highest precision of state-of-the-art atomic clocks. [ABSTRACT FROM AUTHOR]

Published

2017

33. A high sensitivity fiber optic gyroscope on multiplexed telecommunication network.

Author

Clivati, Cecilia, Calonico, Davide, Costanzo, Giovanni A., Mura, Alberto, Pizzocaro, Marco, and Levi, Filippo

Published

2013

34. Accuracy evaluation of ITCsF2: a nitrogen cooled caesium fountain.

Author

Levi, Filippo, Calonico, Davide, Calosso, Claudio E, Godone, Aldo, Micalizio, Salvatore, and Costanzo, Giovanni A

Published

2014

35. Realization of an ultrastable 578-nm laser for an Yb lattice clock.

Author

Pizzocaro, Marco, Costanzo, Giovanni, Godone, Aldo, Levi, Filippo, Mura, Alberto, Zoppi, Marco, and Calonico, Davide

Subjects

INDUSTRIAL lasers, YTTERBIUM, ATOMIC clocks, OPTICAL lattices, RADIO frequency, ELECTRIC noise, TEMPERATURE measurements

Abstract

In this paper, we describe the development of an ultrastable laser source at 578 nm, realized using frequency sum generation. This source will be used to excite the clock transition 1S0 - 3P0 in an ytterbium optical lattice clock experiment. Two independent ultrastable lasers have been realized, and the laser frequency noise and stability have been characterized. [ABSTRACT FROM PUBLISHER]

Published

2012

36. Planar-waveguide external cavity laser stabilization for an optical link with 10-19 frequency stability.

Author

Clivati, Cecilia, Mura, Alberto, Calonico, Davide, Levi, Filippo, Costanzo, Giovanni, Calosso, Claudio, and Godone, Aldo

Subjects

PLANAR waveguides, CAVITY resonators, FREQUENCY stability, OPTICAL fibers, COMPARATIVE studies, COST effectiveness, FABRY-Perot interferometers, ROBUST control

Abstract

We stabilized the frequency of a compact planarwaveguide external cavity laser (ECL) on a Fabry-P?rot cavity (FPC) through a Pound-Drever-Hall scheme. The residual frequency stability of the ECL is 10?14, comparable to the stability achievable with a fiber laser (FL) locked to an FPC through the same scheme. We set up an optical link of 100 km, based on fiber spools, that reaches 10?19 relative stability, and we show that its performances using the ECL or FL are comparable. Thus ECLs could serve as an excellent replacement for FLs in optical links where cost-effectiveness and robustness are important considerations. [ABSTRACT FROM PUBLISHER]

Published

2011