Your search keyword '"Cavaliere, Fabio"' showing total 424 results

1. Synchronization-induced violation of thermodynamic uncertainty relations

Author

Razzoli, Luca, Carrega, Matteo, Cavaliere, Fabio, Benenti, Giuliano, and Sassetti, Maura

Subjects

Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Fluctuations affect the functionality of nanodevices. Thermodynamic uncertainty relations (TURs), derived within the framework of stochastic thermodynamics, show that a minimal amount of dissipation is required to obtain a given relative energy current dispersion, that is, current precision has a thermodynamic cost. It is therefore of great interest to explore the possibility that TURs are violated, particularly for quantum systems, leading to accurate currents at lower cost. Here, we show that two quantum harmonic oscillators are synchronized by coupling to a common thermal environment, at strong dissipation and low temperature. In this regime, periodically modulated couplings to a second thermal reservoir, breaking time-reversal symmetry and taking advantage of non-Markovianity of this latter reservoir, lead to strong violation of TURs for local work currents, while maintaining finite output power. Our results pave the way for the use of synchronization in the thermodynamics of precision., Comment: 15 pages, 10 figures. This is the Accepted Manuscript version of an article accepted for publication in "Quantum Science and Technology". IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at https://www.doi.org/10.1088/2058-9565/ad6fc9

Published

2024

2. Efficiency and thermodynamic uncertainty relations of a dynamical quantum heat engine

Author

Razzoli, Luca, Cavaliere, Fabio, Carrega, Matteo, Sassetti, Maura, and Benenti, Giuliano

Published

2024

3. Towards a phase diagram of the topologically frustrated XY chain

Author

Shaikh, Daniel Sacco, Catalano, Alberto Giuseppe, Cavaliere, Fabio, Franchini, Fabio, Sassetti, Maura, and Ziani, Niccolò Traverso

Subjects

Condensed Matter - Statistical Mechanics, Condensed Matter - Strongly Correlated Electrons, Quantum Physics

Abstract

Landau theory's implicit assumption that microscopic details cannot affect the system's phases has been challenged only recently in systems such as antiferromagnetic quantum spin chains with periodic boundary conditions, where topological frustration can be induced. In this work, we show that the latter modifies the zero temperature phase diagram of the XY chain in a transverse magnetic field by inducing new quantum phase transitions. In doing so, we come across the first case of second order boundary quantum phase transition characterized by a quartic dispersion relation. Our analytical results are supported by numerical investigations and lay the foundation for understanding the phase diagram of this frustrated model.

Published

2023

4. Dissipation-induced collective advantage of a quantum thermal machine

Author

Carrega, Matteo, Razzoli, Luca, Erdman, Paolo Andrea, Cavaliere, Fabio, Benenti, Giuliano, and Sassetti, Maura

Subjects

Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Do quantum correlations lead to better performance with respect to several different systems working independently? For quantum thermal machines, the question is whether a working medium (WM) made of $N$ constituents exhibits better performance than $N$ independent engines working in parallel. Here, by inspecting a microscopic model with the WM composed by two non-interacting quantum harmonic oscillators, we show that the presence of a common environment can mediate non-trivial correlations in the WM leading to better quantum heat engine performance -- maximum power and efficiency -- with respect to an independent configuration. Furthermore, this advantage is striking for strong dissipation, a regime in which two independent engines cannot deliver any useful power. Our results show that dissipation can be exploited as a useful resource for quantum thermal engines, and are corroborated by optimization techniques here extended to non-Markovian quantum heat engines., Comment: Accepted Manuscript: Main text (13 pages, 8 figures) + Supplementary Material (9 pages, 3 figures). This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in AVS Quantum Science 6, 025001 (2024) and may be found at https://doi.org/10.1116/5.0190340

Published

2023

5. ER-mitochondria distance is a critical parameter for efficient mitochondrial Ca2+ uptake and oxidative metabolism

Author

Dematteis, Giulia, Tapella, Laura, Casali, Claudio, Talmon, Maria, Tonelli, Elisa, Reano, Simone, Ariotti, Adele, Pessolano, Emanuela, Malecka, Justyna, Chrostek, Gabriela, Kulkovienė, Gabrielė, Umbrasas, Danielius, Distasi, Carla, Grilli, Mariagrazia, Ladds, Graham, Filigheddu, Nicoletta, Fresu, Luigia Grazia, Mikoshiba, Katsuhiko, Matute, Carlos, Ramos-Gonzalez, Paula, Jekabsone, Aiste, Calì, Tito, Brini, Marisa, Biggiogera, Marco, Cavaliere, Fabio, Miggiano, Riccardo, Genazzani, Armando A., and Lim, Dmitry

Published

2024

6. Reconstruction-Induced $\varphi_0$ Josephson Effect in Quantum Spin Hall Constrictions

Author

Vigliotti, Lucia, Cavaliere, Fabio, Passetti, Giacomo, Sassetti, Maura, and Ziani, Niccolò Traverso

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The simultaneous breaking of time-reversal and inversion symmetry, in connection to superconductivity, leads to transport properties with disrupting scientific and technological potential. Indeed, the anomalous Josephson effect and the superconducting-diode effect hold promises to enlarge the technological applications of superconductors and nanostructures in general. In this context, the system we theoretically analyze is a Josephson junction (JJ) with coupled reconstructed topological channels as a link; such channels are at the edges of a two-dimensional topological insulator (2DTI). We find a robust $\varphi_0$ Josephson effect without requiring the presence of external magnetic fields. Our results, which rely on a fully analytical analysis, are substantiated by means of symmetry arguments: Our system breaks both time-reversal symmetry and inversion symmetry. Moreover, the anomalous current increases as a function of temperature. We interpret this surprising temperature dependence by means of simple qualitative arguments based on Fermi's golden rule., Comment: 13 pages, 3 figures

Published

2023

7. Phase diagram of the topologically frustrated XY chain

Author

Sacco Shaikh, Daniel, Catalano, Alberto Giuseppe, Cavaliere, Fabio, Franchini, Fabio, Sassetti, Maura, and Traverso Ziani, Niccolò

Published

2024

8. Efficiency and thermodynamic uncertainty relations of a dynamical quantum heat engine

Author

Razzoli, Luca, Cavaliere, Fabio, Carrega, Matteo, Sassetti, Maura, and Benenti, Giuliano

Subjects

Quantum Physics

Abstract

In the quest for high-performance quantum thermal machines, looking for an optimal thermodynamic efficiency is only part of the issue. Indeed, at the level of quantum devices, fluctuations become extremely relevant and need to be taken into account. In this paper we study the thermodynamic uncertainty relations for a quantum thermal machine with a quantum harmonic oscillator as a working medium, connected to two thermal baths, one of which is dynamically coupled. We show that parameters can be found such that the machine operates both as a quantum engine or refrigerator, with both sizeable efficiency and small fluctuations., Comment: 16 pages, 5 color figures. This version of the article has been accepted for publication, after peer review but is not the Version of Record and does not reflect post-acceptance improvements, or any corrections. The Version of Record is available online at: https://doi.org/10.1140/epjs/s11734-023-00949-8

Published

2023

9. Hybrid quantum thermal machines with dynamical couplings

Author

Cavaliere, Fabio, Razzoli, Luca, Carrega, Matteo, Benenti, Giuliano, and Sassetti, Maura

Subjects

Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Quantum thermal machines can perform useful tasks, such as delivering power, cooling, or heating. In this work, we consider hybrid thermal machines, that can execute more than one task simultaneously. We characterize and find optimal working conditions for a three-terminal quantum thermal machine, where the working medium is a quantum harmonic oscillator, coupled to three heat baths, with two of the couplings driven periodically in time. We show that it is possible to operate the thermal machine efficiently, in both pure and hybrid modes, and to switch between different operational modes simply by changing the driving frequency. Moreover, the proposed setup can also be used as a high-performance transistor, in terms of output--to--input signal and differential gain. Due to its versatility and tunability, our model may be of interest for engineering thermodynamic tasks and for thermal management in quantum technologies., Comment: Original submitted version of the manuscript: 14 pages, 5(+1) color figures

Published

2023

10. Dynamical heat engines with non--Markovian reservoirs

Author

Cavaliere, Fabio, Carrega, Matteo, De Filippis, Giulio, Cataudella, Vittorio, Benenti, Giuliano, and Sassetti, Maura

Subjects

Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We discuss whether, and under which conditions, it is possible to realize a heat engine simply by dynamically modulating the couplings between the quantum working medium and thermal reservoirs. For that purpose, we consider the paradigmatic model of a quantum harmonic oscillator, exposed to a minimal modulation, that is, a monochromatic driving of the coupling to only one of the thermal baths. We demonstrate, at any order in the system/bath coupling strength, that in this setup non--Markovianity of the bath is a necessary condition to obtain a heat engine. In addition, we identify suitable structured environments for the engine to approach the ideal Carnot efficiency. Our results open up new possibilities for the use of non--Markovian open quantum systems for the construction and optimization of quantum thermal machines., Comment: Final revision as published on Physical Review Research: 19 pages, 7 color figures

Published

2022

11. Assessing bound states in a one-dimensional topological superconductor: Majorana versus Tamm

Author

Vigliotti, Lucia, Cavaliere, Fabio, Carrega, Matteo, and Ziani, Niccolò Traverso

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Majorana bound states in topological superconductors have attracted intense research activity in view of applications in topological quantum computation. However, they are not the only example of topological bound states that can occur in such systems. We here study a model in which both Majorana and Tamm bound states compete. We show both numerically and analytically that, surprisingly, the Tamm state remains partially localized even when the spectrum becomes gapless. Despite this fact, we demonstrate that the Majorana polarization shows a clear transition between the two regimes.

Published

2022

12. Quantum Floquet engineering with an exactly solvable tight-binding chain in a cavity

Author

Eckhardt, Christian J., Passetti, Giacomo, Othman, Moustafa, Karrasch, Christoph, Cavaliere, Fabio, Sentef, Michael A., and Kennes, Dante M.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Statistical Mechanics, Physics - Optics, Quantum Physics

Abstract

Recent experimental advances enable the manipulation of quantum matter by exploiting the quantum nature of light. However, paradigmatic exactly solvable models, such as the Dicke, Rabi or Jaynes-Cummings models for quantum-optical systems, are scarce in the corresponding solid-state, quantum materials context. Focusing on the long-wavelength limit for the light, here, we provide such an exactly solvable model given by a tight-binding chain coupled to a single cavity mode via a quantized version of the Peierls substitution. We show that perturbative expansions in the light-matter coupling have to be taken with care and can easily lead to a false superradiant phase. Furthermore, we provide an analytical expression for the groundstate in the thermodynamic limit, in which the cavity photons are squeezed by the light-matter coupling. In addition, we derive analytical expressions for the electronic single-particle spectral function and optical conductivity. We unveil quantum Floquet engineering signatures in these dynamical response functions, such as analogs to dynamical localization and replica side bands, complementing paradigmatic classical Floquet engineering results. Strikingly, the Drude weight in the optical conductivity of the electrons is partially suppressed by the presence of a single cavity mode through an induced electron-electron interaction.

Published

2021

13. Signature of Generalized Gibbs Ensemble Deviation from Equilibrium: Negative Absorption Induced by a Local Quench

Author

Rossi, Lorenzo, Dolcini, Fabrizio, Cavaliere, Fabio, Ziani, Niccolò Traverso, Sassetti, Maura, and Rossi, Fausto

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Statistical Mechanics

Abstract

When a parameter quench is performed in an isolated quantum system with a complete set of constants of motion, its out of equilibrium dynamics is considered to be well captured by the Generalized Gibbs Ensemble (GGE), characterized by a set $\{\lambda_\alpha\}$ of coefficients related to the constants of motion. We determine the most elementary GGE deviation from the equilibrium distribution that leads to detectable effects. By quenching a suitable local attractive potential in a one-dimensional electron system, the resulting GGE differs from equilibrium by only one single $\lambda_{\alpha}$, corresponding to the emergence of an only partially occupied bound state lying below a fully occupied continuum of states. The effect is shown to induce optical gain, i.e., a negative peak in the absorption spectrum, indicating the stimulated emission of radiation, enabling one to identify GGE signatures in fermionic systems through optical measurements. We discuss the implementation in realistic setups., Comment: 11 pages, 4 figures

Published

2020

14. CLR01 protects dopaminergic neurons in vitro and in mouse models of Parkinson's disease.

Author

Bengoa-Vergniory, Nora, Faggiani, Emilie, Ramos-Gonzalez, Paula, Kirkiz, Ecem, Connor-Robson, Natalie, Brown, Liam V, Siddique, Ibrar, Li, Zizheng, Vingill, Siv, Cioroch, Milena, Cavaliere, Fabio, Threlfell, Sarah, Roberts, Bradley, Schrader, Thomas, Klärner, Frank-Gerrit, Cragg, Stephanie, Dehay, Benjamin, Bitan, Gal, Matute, Carlos, Bezard, Erwan, and Wade-Martins, Richard

Subjects

Animals, Humans, Mice, Parkinson Disease, Disease Models, Animal, Protective Agents, Male, alpha-Synuclein, Dopaminergic Neurons, Organophosphates, Protein Aggregates, Bridged-Ring Compounds

Abstract

Parkinson's disease (PD) affects millions of patients worldwide and is characterized by alpha-synuclein aggregation in dopamine neurons. Molecular tweezers have shown high potential as anti-aggregation agents targeting positively charged residues of proteins undergoing amyloidogenic processes. Here we report that the molecular tweezer CLR01 decreased aggregation and toxicity in induced pluripotent stem cell-derived dopaminergic cultures treated with PD brain protein extracts. In microfluidic devices CLR01 reduced alpha-synuclein aggregation in cell somas when axonal terminals were exposed to alpha-synuclein oligomers. We then tested CLR01 in vivo in a humanized alpha-synuclein overexpressing mouse model; mice treated at 12 months of age when motor defects are mild exhibited an improvement in motor defects and a decreased oligomeric alpha-synuclein burden. Finally, CLR01 reduced alpha-synuclein-associated pathology in mice injected with alpha-synuclein aggregates into the striatum or substantia nigra. Taken together, these results highlight CLR01 as a disease-modifying therapy for PD and support further clinical investigation.

Published

2020

15. The Future Quantum Internet

Author

Cavaliere, Fabio, Sircar, Rana Pratap, Catuogno, Tommaso, Iyengar, Sitharama S., editor, Mastriani, Mario, editor, and Kumar, KJ Latesh, editor

Published

2022

16. Universal scaling of quench-induced correlations in a one-dimensional channel at finite temperature

Author

Calzona, Alessio, Gambetta, Filippo Maria, Carrega, Matteo, Cavaliere, Fabio, Schmidt, Thomas L., and Sassetti, Maura

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Quantum Gases

Abstract

It has been shown that a quantum quench of interactions in a one-dimensional fermion system at zero temperature induces a universal power law $\propto t^{-2}$ in its long-time dynamics. In this paper we demonstrate that this behaviour is robust even in the presence of thermal effects. The system is initially prepared in a thermal state, then at a given time the bath is disconnected and the interaction strength is suddenly quenched. The corresponding effects on the long times dynamics of the non-equilibrium fermionic spectral function are considered. We show that the non-universal power laws, present at zero temperature, acquire an exponential decay due to thermal effects and are washed out at long times, while the universal behaviour $\propto t^{-2}$ is always present. To verify our findings, we argue that these features are also visible in transport properties at finite temperature. The long-time dynamics of the current injected from a biased probe exhibits the same universal power law relaxation, in sharp contrast with the non-quenched case which features a fast exponential decay of the current towards its steady value, and thus represents a fingerprint of quench-induced dynamics. Finally, we show that a proper tuning of the probe temperature, compared to that of the one-dimensional channel, can enhance the visibility of the universal power-law behaviour., Comment: 22 pages, 5 figures. Submission to SciPost

Published

2017

17. Quench-induced entanglement and relaxation dynamics in Luttinger liquids

Author

Calzona, Alessio, Gambetta, Filippo Maria, Cavaliere, Fabio, Carrega, Matteo, and Sassetti, Maura

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Quantum Gases

Abstract

We investigate the time evolution towards the asymptotic steady state of a one dimensional interacting system after a quantum quench. We show that at finite time the latter induces entanglement between right- and left- moving density excitations, encoded in their cross-correlators, which vanishes in the long-time limit. This behavior results in a universal time-decay in system spectral properties $ \propto t^{-2} $, in addition to non-universal power-law contributions typical of Luttinger liquids. Importantly, we argue that the presence of quench-induced entanglement clearly emerges in transport properties, such as charge and energy currents injected in the system from a biased probe, and determines their long-time dynamics. In particular, energy fractionalization phenomenon turns out to be a promising platform to observe the universal power-law decay $ \propto t^{-2} $ induced by entanglement and represents a novel way to study the corresponding relaxation mechanism., Comment: 11 pages, 3 figures

Published

2017

18. Characterization of molecular biomarkers in cerebrospinal fluid and serum of E46K-SNCA mutation carriers

Author

Murueta-Goyena, Ane, Cipriani, Raffaela, Carmona-Abellán, Mar, Acera, Marian, Ayo, Naia, Del Pino, Rocío, Tijero, Beatriz, Fernández-Valle, Tamara, Gabilondo, Iñigo, Zallo, Fátima, Matute, Carlos, Sánchez-Pernaute, Rosario, Khurana, Vikram, Cavaliere, Fabio, Capetillo-Zarate, Estibaliz, and Gómez-Esteban, Juan Carlos

Published

2022

19. Shedding light on the etiology of neurodegenerative diseases and dementia: the exposome paradigm

Author

Cavaliere, Fabio and Gülöksüz, Sinan

Published

2022

20. Quantum Floquet engineering with an exactly solvable tight-binding chain in a cavity

Author

Eckhardt, Christian J., Passetti, Giacomo, Othman, Moustafa, Karrasch, Christoph, Cavaliere, Fabio, Sentef, Michael A., and Kennes, Dante M.

Published

2022

21. SOA Model and Design Guidelines in Lossless Photonic Subsystem

Author

Nadimi Goki, Pantea, primary, Tufano, Antonio, additional, Cavaliere, Fabio, additional, and Potì, Luca, additional

Published

2022

22. Dissipation-induced collective advantage of a quantum thermal machine

Author

Carrega, Matteo, primary, Razzoli, Luca, additional, Erdman, Paolo Andrea, additional, Cavaliere, Fabio, additional, Benenti, Giuliano, additional, and Sassetti, Maura, additional

Published

2024

23. Intent-based AI system in packet-optical networks towards 6G [Invited]

Author

Iovanna, Paola, primary, Puleri, Marzio, additional, Bottari, Giulio, additional, and Cavaliere, Fabio, additional

Published

2024

24. Digital Optical Front-Haul Technologies and Architectures

Author

Cavaliere, Fabio, Larrabeiti, David, Mukherjee, Biswanath, editor, Tomkos, Ioannis, editor, Tornatore, Massimo, editor, Winzer, Peter, editor, and Zhao, Yongli, editor

Published

2020

25. Non-equilibrium effects on charge and energy partitioning after an interaction quench

Author

Calzona, Alessio, Gambetta, Filippo Maria, Carrega, Matteo, Cavaliere, Fabio, and Sassetti, Maura

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Charge and energy fractionalization are among the most intriguing features of interacting onedimensional fermion systems. In this work we determine how these phenomena are modified in the presence of an interaction quench. Charge and energy are injected into the system suddenly after the quench, by means of tunneling processes with a non-interacting one-dimensional probe. Here, we demonstrate that the system settles to a steady state in which the charge fractionalization ratio is unaffected by the pre-quenched parameters. On the contrary, due to the post-quench nonequilibrium spectral function, the energy partitioning ratio is strongly modified, reaching values larger than one. This is a peculiar feature of the non-equilibrium dynamics of the quench process and it is in sharp contrast with the non-quenched case, where the ratio is bounded by one., Comment: 12 pages, 4 figures

Published

2016

26. Time-resolved energy dynamics after single electron injection into an interacting helical liquid

Author

Calzona, Alessio, Acciai, Matteo, Carrega, Matteo, Cavaliere, Fabio, and Sassetti, Maura

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The possibility to inject a single electron into ballistic conductors is at the basis of the new field of electron quantum optics. Here, we consider a single electron injection into the helical edge channels of a topological insulator. Their counterpropagating nature and the unavoidable presence of electron-electron interactions dramatically affect the time evolution of the single wavepacket. Modeling the injection process from a mesoscopic capacitor in presence of non-local tunneling, we focus on the time resolved charge and energy packet dynamics. Both quantities split up into counterpropagating contributions whose profiles are strongly affected by the interactions strength. In addition, stronger signatures are found for the injected energy, which is also affected by the finite width of the tunneling region. Indeed, the energy flow can be controlled by tuning the injection parameters and we demonstrate that, in presence of non-local tunneling, it is possible to achieve situation in which charge and energy flow in opposite directions., Comment: 13 pages, 8 figures

Published

2016

27. Limitations of human brain organoids to study neurodegenerative diseases: a manual to survive.

Author

Urrestizala-Arenaza, Nerea, Cerchio, Sonia, Cavaliere, Fabio, and Magliaro, Chiara

Subjects

NEURODEGENERATION, ALZHEIMER'S disease, ORGANOIDS, PLURIPOTENT stem cells, PARKINSON'S disease, AMYOTROPHIC lateral sclerosis

Abstract

In 2013, M. Lancaster described the first protocol to obtain human brain organoids. These organoids, usually generated from human-induced pluripotent stem cells, can mimic the three-dimensional structure of the human brain. While they recapitulate the salient developmental stages of the human brain, their use to investigate the onset and mechanisms of neurodegenerative diseases still faces crucial limitations. In this review, we aim to highlight these limitations, which hinder brain organoids from becoming reliable models to study neurodegenerative diseases such as Alzheimer's disease (AD), Parkinson's disease (PD), and amyotrophic lateral sclerosis (ALS). Specifically, we will describe structural and biological impediments, including the lack of an aging footprint, angiogenesis, myelination, and the inclusion of functional and immunocompetent microglia--all important factors in the onset of neurodegeneration in AD, PD, and ALS. Additionally, we will discuss technical limitations for monitoring the microanatomy and electrophysiology of these organoids. In parallel, we will propose solutions to overcome the current limitations, thereby making human brain organoids a more reliable tool to model neurodegeneration. [ABSTRACT FROM AUTHOR]

Published

2024

28. The security implications of quantum cryptography and quantum computing

Author

Cavaliere, Fabio, Mattsson, John, and Smeets, Ben

Published

2020

29. Inappropriate Citation of Retracted Articles in Anesthesiology and Intensive Care Medicine Publications

Author

De Cassai, Alessandro, Geraldini, Federico, De Pinto, Silvia, Carbonari, Ilaria, Cascella, Marco, Boscolo, Annalisa, Sella, Nicolò, Monteleone, Francesco, Cavaliere, Fabio, Munari, Marina, Garofalo, Eugenio, and Navalesi, Paolo

Published

2022

30. Gliogenesis from the subventricular zone modulates the extracellular matrix at the glial scar after brain ischemia

Author

Ardaya, Maria, primary, Tiveron, Marie-Catherine, additional, Cremer, Harold, additional, Dehay, Benjamin, additional, Pérez-Cerdá, Fernando, additional, Matute, Carlos, additional, Soria, Federico N., additional, and Cavaliere, Fabio, additional

Published

2024

31. 8.5 Tbps Net SiP O-band Coherent Transmission over 10 km Using a Quantum-Dot Mode-Locked Comb Laser

Author

Bernal, Santiago, primary, Dumont, Mario, additional, Berikaa, Essam, additional, St-Arnault, Charles, additional, Hu, Yixiang, additional, Castrejon, Ramon Gutierrez, additional, Wei, Zixian, additional, D'Errico, Antonio, additional, Bigongiari, Alessandra, additional, Giorgi, Luca, additional, Stracca, Stefano, additional, Brunner, Robert, additional, Lessard, Stephane, additional, Cavaliere, Fabio, additional, Bowers, John, additional, and Plant, David V., additional

Published

2024

32. Can photonics help in reducing the power consumption in Radio Access Networks?

Author

Cavaliere, Fabio, primary, Bigongiari, Alessandra, additional, and Tartaglia, Antonio, additional

Published

2024

33. Will a metro-access optical continuum ever fly? deployment challenges and enabling technologies

Author

Cavaliere, Fabio, primary and Percelsi, Alessandro, additional

Published

2024

34. Optical Time-Frequency Packing: Principles, Design, Implementation, and Experimental Demonstration

Author

Secondini, Marco, Foggi, Tommaso, Fresi, Francesco, Meloni, Gianluca, Cavaliere, Fabio, Colavolpe, Giulio, Forestieri, Enrico, Potì, Luca, Sabella, Roberto, and Prati, Giancarlo

Subjects

Physics - Optics, Computer Science - Information Theory

Abstract

Time-frequency packing (TFP) transmission provides the highest achievable spectral efficiency with a constrained symbol alphabet and detector complexity. In this work, the application of the TFP technique to fiber-optic systems is investigated and experimentally demonstrated. The main theoretical aspects, design guidelines, and implementation issues are discussed, focusing on those aspects which are peculiar to TFP systems. In particular, adaptive compensation of propagation impairments, matched filtering, and maximum a posteriori probability detection are obtained by a combination of a butterfly equalizer and four 8-state parallel Bahl-Cocke-Jelinek-Raviv (BCJR) detectors. A novel algorithm that ensures adaptive equalization, channel estimation, and a proper distribution of tasks between the equalizer and BCJR detectors is proposed. A set of irregular low-density parity-check codes with different rates is designed to operate at low error rates and approach the spectral efficiency limit achievable by TFP at different signal-to-noise ratios. An experimental demonstration of the designed system is finally provided with five dual-polarization QPSK-modulated optical carriers, densely packed in a 100 GHz bandwidth, employing a recirculating loop to test the performance of the system at different transmission distances., Comment: This paper has been accepted for publication in the IEEE/OSA Journal of Lightwave Technology

Published

2014

35. Magnetic AC control of the spin textures in a helical Luttinger liquid

Author

Dolcetto, Giacomo, Cavaliere, Fabio, and Sassetti, Maura

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

We demonstrate the possibility to induce and control peculiar spin textures in a helical Luttinger liquid, by means of a time-dependent magnetic scatterer. The presence of a perturbation that breaks the time-reversal symmetry opens a gap in the spectrum, inducing single-particle backscattering and a peculiar spin response. We show that in the weak backscattering regime asymmetric spin textures emerge at the left and right side of the scatterer, whose spatial oscillations are controlled by the ratio between the magnetization frequency and the Fermi energy and by the electron interaction. This peculiar spin response marks a strong difference between helical and non-helical liquids, which are expected to produce symmetric spin textures even in the AC regime., Comment: 7 pages, 4 figures

Published

2014

36. Coulomb blockade microscopy of spin density oscillations and fractional charge in quantum spin Hall dots

Author

Dolcetto, Giacomo, Ziani, Niccolò Traverso, Biggio, Matteo, Cavaliere, Fabio, and Sassetti, Maura

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

We evaluate the spin density oscillations arising in quantum spin Hall quantum dots created via two localized magnetic barriers. The combined presence of magnetic barriers and spin-momentum locking, the hallmark of topological insulators, leads to peculiar phenomena: a half-integer charge is trapped in the dot for antiparallel magnetization of the barriers, and oscillations appear in the in-plane spin density, which are enhanced in the presence of electron interactions. Furthermore, we show that the number of these oscillations is determined by the number of particles inside the dot, so that the presence or the absence of the fractional charge can be deduced from the in-plane spin density. We show that when the dot is coupled with a magnetized tip, the spatial shift induced in the chemical potential allows to probe these peculiar features., Comment: 6 pages, 6 figures

Published

2013

37. Generating and controlling spin-polarized currents induced by a quantum spin Hall antidot

Author

Dolcetto, Giacomo, Cavaliere, Fabio, Ferraro, Dario, and Sassetti, Maura

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

We study an electrically controlled quantum spin Hall antidot embedded in a two-dimensional topological insulating bar. Helical edge states around the antidot and along the edges of the bar are tunnel coupled. The close connection between spin and chirality, typical of helical systems, allows to generate a spin-polarized current flowing across the bar. This current is studied as a function of the external voltages, by varying the asymmetry between the barriers. For asymmetric setups, a switching behavior of the spin current is observed as the bias is increased, both in the absence and in the presence of electron interactions. This device allows to generate and control the spin-polarized current by simple electrical means., Comment: 7 pages, 6 figures

Published

2013

38. Research on SARS-COV-2 pandemic: a narrative review focused on the Italian contribution

Author

De Cassai, Alessandro, Longhini, Federico, Romagnoli, Stefano, Cavaliere, Fabio, Caroleo, Antonio, Foti, Lorenzo, Furlani, Elisa, Gianoli, Sara, Monteleone, Francesco, Saraco, Giuseppe, Villa, Gianluca, Conti, Giorgio, and Navalesi, Paolo

Published

2021

39. Astrocytic atrophy as a pathological feature of Parkinson’s disease with LRRK2 mutation

Author

Ramos-Gonzalez, Paula, Mato, Susana, Chara, Juan Carlos, Verkhratsky, Alexei, Matute, Carlos, and Cavaliere, Fabio

Published

2021

40. Silicon-based optical links using novel direct detection, coherent detection and dual polarization methods for new generation transport architectures

Author

Saber, Md Ghulam, Vall-Llosera, Gemma, Patel, David, Samani, Alireza, Li, Rui, Morsy-Osman, Mohamed, Chagnon, Mathieu, El-Fiky, Eslam, Gutiérrez-Castrejón, Ramón, Urban, Patryk J., Dortschy, Boris, Cavaliere, Fabio, Lessard, Stephane, and Plant, David V.

Published

2019

41. Asymmetric Franck-Condon factors in suspended carbon nanotube quantum dots

Author

Cavaliere, Fabio, Mariani, Eros, Leturcq, Renaud, Stampfer, Christoph, and Sassetti, Maura

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Electronic states and vibrons in carbon nanotube quantum dots have in general different location and size. As a consequence, the conventional Anderson-Holstein model, coupling vibrons to the dot total charge only, may no longer be appropriated in general. Here we explicitly address the role of the spatial fluctuations of the electronic density, yielding space-dependent Franck-Condon factors. We discuss the consequent marked effects on transport which are compatible with recent measurements. This picture can be relevant for tunneling experiments in generic nano-electromechanical systems., Comment: 4+ pages, 3 figures (2 color, 1 BW)

Published

2009

42. Non-adiabatic pumping through interacting quantum dots

Author

Cavaliere, Fabio, Governale, Michele, and König, Jürgen

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We study non-adiabatic two-parameter charge and spin pumping through a single-level quantum dot with Coulomb interaction. For the limit of weak tunnel coupling and in the regime of pumping frequencies up to the tunneling rates, $\Omega \lesssim \Gamma/\hbar$, we perform an exact resummation of contributions of all orders in the pumping frequency. As striking non-adiabatic signatures, we find frequency-dependent phase shifts in the charge and spin currents, which allow for an effective single-parameter pumping as well as pure spin without charge currents., Comment: 4 pages, 2 figures

Published

2009

43. Co-Packaged Optics Opportunities in Radio-Access Networks

Author

Cavaliere, Fabio, primary, Tartaglia, Antonio, additional, Ljungbro, Agneta, additional, Bigongiari, Alessandra, additional, Lessard, Stephane, additional, Giorgi, Luca, additional, Tavemark, Anna, additional, Parkholm, Ulf, additional, Palagi, Alfredo, additional, Stracca, Stefano, additional, D'Errico, Antonio, additional, and Svee, Nicke, additional

Published

2023

44. Impact of self-citation on author h-index in anaesthesiology and pain medicine

Author

De Cassai, Alessandro, primary, Torrano, Vito, additional, Pistollato, Elisa, additional, Monteleone, Francesco, additional, Tinti, Giulia, additional, Volpe, Francesco, additional, Piazzai, Daniele, additional, Cavaliere, Fabio, additional, Piras, Fabrizio, additional, De Simone, Paolo, additional, Baccoli, Francesco, additional, Frasson, Sara, additional, Lupelli, Irene, additional, Geraldini, Federico, additional, Zarantonello, Francesco, additional, Boscolo, Annalisa, additional, Pettenuzzo, Tommaso, additional, Lorenzoni, Giulia, additional, Gregori, Dario, additional, and Navalesi, Paolo, additional

Published

2023

45. Sub-Poissonian phononic population in a nanoelectromechanical system

Author

Merlo, Matteo, Haupt, Federica, Cavaliere, Fabio, and Sassetti, Maura

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Population of a phononic mode coupled to a single-electron transistor in the sequential tunneling regime is discussed for the experimentally realistic case of intermediate electron-phonon coupling. Features like a sub-Poissonian bosonic distribution are found in regimes where electron transport drives the oscillator strongly out of equilibrium with only few phonon states selectively populated. The electron Fano factor is compared to fluctuations in the phonon distribution, showing that all possible combinations of sub- and super-Poissonian character can be realized., Comment: 4 pages, 3 figures

Published

2007

46. Efficiency and thermodynamic uncertainty relations of a dynamical quantum heat engine

Author

Razzoli, Luca, primary, Cavaliere, Fabio, additional, Carrega, Matteo, additional, Sassetti, Maura, additional, and Benenti, Giuliano, additional

Published

2023

47. Perspectives for Co-Packaged Optics in Radio Access Networks

Author

Tartaglia, Antonio, primary, Cavaliere, Fabio, additional, Lostedt, Mikael, additional, Bigongiari, Alessandra, additional, Palagi, Alfredo, additional, Parkholm, Ulf, additional, Tavemark, Anna, additional, Stracca, Stefano, additional, D’Errico, Antonio, additional, Lessard, Stephane, additional, and Johansson, Mats, additional

Published

2023

48. In vitro α-synuclein neurotoxicity and spreading among neurons and astrocytes using Lewy body extracts from Parkinson disease brains

Author

Cavaliere, Fabio, Cerf, Loic, Dehay, Benjamin, Ramos-Gonzalez, Paula, De Giorgi, Francesca, Bourdenx, Mathieu, Bessede, Alban, Obeso, Jose A., Matute, Carlos, Ichas, François, and Bezard, Erwan

Published

2017

49. Towards a unified fronthaul-backhaul data plane for 5G The 5G-Crosshaul project approach

Author

Cavaliere, Fabio, Iovanna, Paola, Mangues-Bafalluy, Josep, Baranda, Jorge, Núñez-Martínez, José, Lin, Kun-Yi, Chang, Hsien-Wen, Chanclou, Philippe, Farkas, Peter, Gomes, Jessé, Cominardi, Luca, Mourad, Alain, De La Oliva, Antonio, Hernández, José Alberto, Larrabeiti, David, Di Giglio, Andrea, Paolicelli, Antonia, and Ödling, Per

Published

2017

50. Topological classification of dynamical quantum phase transitions in the xy chain

Author

Porta, Sergio, Cavaliere, Fabio, Sassetti, Maura, and Traverso Ziani, Niccolò

Published

2020