Your search keyword '"Vitiello P."' showing total 61 results

1. Mitigating Errors on Superconducting Quantum Processors through Fuzzy Clustering

Author

Ahmad, Halima G., Schiattarella, Roberto, Mastrovito, Pasquale, Chiatto, Angela, Levochkina, Anna, Esposito, Martina, Montemurro, Domenico, Pepe, Giovanni P., Bruno, Alessandro, Tafuri, Francesco, Vitiello, Autilia, Acampora, Giovanni, and Massarotti, Davide

Subjects

Quantum Physics, Condensed Matter - Superconductivity

Abstract

Quantum utility has been severely limited in superconducting quantum hardware until now by the modest number of qubits and the relatively high level of control and readout errors, due to the intentional coupling with the external environment required for manipulation and readout of the qubit states. Practical applications in the Noisy Intermediate Scale Quantum (NISQ) era rely on Quantum Error Mitigation (QEM) techniques, which are able to improve the accuracy of the expectation values of quantum observables by implementing classical post-processing analysis from an ensemble of repeated noisy quantum circuit runs. In this work, we focus on a recent QEM technique that uses Fuzzy C-Means (FCM) clustering to specifically identify measurement error patterns. For the first time, we report a proof-of-principle validation of the technique on a 2-qubit register, obtained as a subset of a real NISQ 5-qubit superconducting quantum processor based on transmon qubits. We demonstrate that the FCM-based QEM technique allows for reasonable improvement of the expectation values of single- and two-qubit gates based quantum circuits, without necessarily invoking state-of-the-art coherence, gate, and readout fidelities.

Published

2024

2. Fermi polaron in atom-ion hybrid systems

Author

Pessoa, Renato, Vitiello, S. A, and Ardila, L. A Peña

Subjects

Condensed Matter - Quantum Gases, Physics - Atomic Physics, Quantum Physics

Abstract

Charged quasiparticles dressed by the low excitations of an electron gas, constitute one of the fundamental pillars for understanding quantum many-body effects in some materials. Quantum simulation of quasiparticles arising from atom-ion hybrid systems may shed light on solid-state uncharted regimes. Here we investigate the ionic Fermi polaron consisting of a charged impurity interacting with a polarized Fermi bath. Employing state-of-the-art quantum Monte Carlo techniques tailored for strongly correlated systems, we characterize the charged quasiparticle by computing the energy spectrum, quasiparticle residue, and effective mass, as well as the structural properties of the system. Our findings in the weak coupling regime agree with field-theory predictions within the ladder approximation. However, stark deviations emerge in the strongly interacting regime attributed to the vastly large density inhomogeneity around the ion, resulting in strong correlations for distances on the order of the atom-ion potential range. Moreover, we find a smooth polaron-molecule transition for strong coupling, in contrast with the neutral case, where the transition smoothens only for finite temperature and finite impurity density. This study may provide valuable insights into alternative solid-state systems such as Fermi excitons polarons in atomically thin semiconductors beyond the short-range limit.

Published

2024

3. Synergy between deep neural networks and the variational Monte Carlo method for small $^4He_N$ clusters

Author

Freitas, William and Vitiello, S. A.

Subjects

Physics - Atomic and Molecular Clusters, Quantum Physics

Abstract

We introduce a neural network-based approach for modeling wave functions that satisfy Bose-Einstein statistics. Applying this model to small $^4He_N$ clusters (with N ranging from 2 to 14 atoms), we accurately predict ground state energies, pair density functions, and two-body contact parameters $C^{(N)}_2$ related to weak unitarity. The results obtained via the variational Monte Carlo method exhibit remarkable agreement with previous studies using the diffusion Monte Carlo method, which is considered exact within its statistical uncertainties. This indicates the effectiveness of our neural network approach for investigating many-body systems governed by Bose-Einstein statistics., Comment: 9 pages, 5 figures

Published

2023

4. Neutrino mixing and oscillations in quantum field theory: a comprehensive introduction

Author

Smaldone, Luca and Vitiello, Giuseppe

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology, Quantum Physics

Abstract

We review some of the main results of the quantum field theoretical approach to neutrino mixing and oscillations. We show that the quantum field theoretical framework, where flavor vacuum is defined, permits to give a precise definition of flavor states as eigenstates of (non-conserved) lepton charges. We obtain the exact oscillation formula which in the relativistic limit reproduces the Pontecorvo oscillation formula and illustrate some of the contradictions arising in the quantum mechanics approximation. We show that the gauge theory structure underlies the neutrino mixing phenomenon and that there exist entanglement between mixed neutrinos. The flavor vacuum is found to be an entangled generalized coherent state of SU(2). We also discuss flavor energy uncertainty relations, which imposes a lower bound on the precision of neutrino energy measurements and we show that the flavor vacuum inescapably emerges in certain classes of models with dynamical symmetry breaking.

Published

2021

5. An evolutionary strategy for finding effective quantum $ 2 $-body Hamiltonians of $ p $-body interacting systems

Author

Acampora, Giovanni, Cataudella, Vittorio, Hegde, Pratibha R., Lucignano, Procolo, Passarelli, Gianluca, and Vitiello, Autilia

Subjects

Quantum Physics

Abstract

Embedding $p$-body interacting models onto the $2$-body networks implemented on commercial quantum annealers is a relevant issue. For highly interacting models, requiring a number of ancilla qubits, that can be sizable and make unfeasible (if not impossible) to simulate such systems. In this manuscript, we propose an alternative to minor embedding, developing a new approximate procedure based on genetic algorithms, allowing to decouple the $p$-body in terms of $2$-body interactions. A set of preliminary numerical experiments demonstrates the feasibility of our approach for the ferromagnetic $p$-spin model, and pave the way towards the application of evolutionary strategies to more complex quantum models., Comment: 15 pages, 6 figures

Published

2019

6. Dynamics of zero-point energy and two-slit phenomena for photons

Author

Widom, A., Swain, J., Srivastava, Y. N., Blasone, M., and Vitiello, G.

Subjects

Quantum Physics

Abstract

An earlier forward and backward in time formalism developed by us to discuss non-relativistic electron diffraction is generalized to the relativistic case and here applied to photons. We show how naturally the zero-point energy emerges in the Planck black-body spectrum once symmetric in time motion - inherent in the Maxwell equations - is invoked for photons. Then, a detailed study is made of two-slit experiments for photons and some novel phenomena, amenable to experiments, are proposed, that arise due to the spin of the photon., Comment: 10 pages. arXiv admin note: text overlap with arXiv:1510.06272

Published

2018

7. Properties of the Superfluid in the Disordered Bose-Hubbard Model

Author

de Abreu, Bruno R., Ray, Ushnish, Vitiello, Silvio A., and Ceperley, David M.

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Disordered Systems and Neural Networks, Physics - Atomic Physics, Quantum Physics

Abstract

We investigate the properties of the superfluid phase in the three-dimensional disordered Bose-Hubbard model using Quantum Monte-Carlo simulations. The phase diagram is generated using Gaussian disorder on the on-site potential. Comparisons with box and speckle disorder show qualitative similarities leading to the re-entrant behavior of the superfluid. Quantitative differences that arise are controlled by the specific shape of the disorder. Statistics pertaining to disorder distributions are studied for a range of interaction strengths and system sizes, where strong finite-size effects are observed. Despite this, both the superfluid fraction and compressibility remain self-averaging throughout the superfluid phase. Close to the superfluid-Bose-glass phase boundary, finite-size effects dominate but still suggest that self-averaging holds. Our results are pertinent to experiments with ultracold atomic gases where a systematic disorder averaging procedure is typically not possible., Comment: 10 pages, 7 figures

Published

2018

8. On the canonical quantization of the electromagnetic field and the emergence of gauge invariance

Author

Blasone, M., Celeghini, E., Jizba, P., Scardigli, F., and Vitiello, G.

Subjects

Quantum Physics, High Energy Physics - Theory

Abstract

In the framework of the canonical quantization of the electromagnetic field, we impose as primary condition on the dynamics the positive definiteness of the energy spectrum. This implies that (Glauber) coherent states have to be considered for the longitudinal and the scalar photon fields. As a result we obtain that the relation holds which in the traditional approach is called the Gupta-Bleuler condition. Gauge invariance emerges as a property of the physical states. The group structure of the theory is recognized to be the one of $SU(2) \otimes SU(1,1)$., Comment: 7 pages. Presented at "Symmetries in Science XVII, Bregenz 2017"

Published

2018

9. Ground-state properties of unitary bosons: from clusters to matter

Author

Carlson, J., Gandolfi, S., van Kolck, U., and Vitiello, S. A.

Subjects

Condensed Matter - Quantum Gases, Nuclear Theory, Physics - Atomic and Molecular Clusters, Quantum Physics

Abstract

The properties of cold Bose gases at unitarity have been extensively investigated in the last few years both theoretically and experimentally. In this paper we use a family of interactions tuned to two-body unitarity and very weak three-body binding to demonstrate the universal properties of both clusters and matter. We determine the universal properties of finite clusters up to 60 particles and, for the first time, explicitly demonstrate the saturation of energy and density with particle number and compare with bulk properties. At saturation in the bulk we determine the energy, density, two- and three-body contacts and the condensate fraction. We find that uniform matter is more bound than three-body clusters by nearly two orders of magnitude, the two-body contact is very large in absolute terms, and yet the condensate fraction is also very large, greater than 90%. Equilibrium properties of these systems may be experimentally accessible through rapid quenching of weakly-interacting boson superfluids., Comment: 5 pages, 4 figures

Published

2017

10. Shadow wave function with a symmetric kernel

Author

Zampronio, V., Pedroso, V. Z., and Vitiello, S. A.

Subjects

Quantum Physics

Abstract

A shadow wave function with an explicit symmetric kernel is introduced. As a consequence the atoms exchange in the system is enhanced. Basic properties of this class of trial functions are kept and quantities it can describe are easily estimated. The effectiveness of this approach is analized by computing properties of interest in a system formed from 4He atoms.

Published

2017

11. Quantum Field Theory and Coalgebraic Logic in Theoretical Computer Science

Author

Basti, Gianfranco, Capolupo, Antonio, and Vitiello, Giuseppe

Subjects

Quantum Physics, Computer Science - Logic in Computer Science, Mathematical Physics

Abstract

In this paper we suggest that in the framework of the Category Theory it is possible to demonstrate the mathematical and logical \textit{dual equivalence} between the category of the $q$-deformed Hopf Coalgebras and the category of the $q$-deformed Hopf Algebras in QFT, interpreted as a thermal field theory. Each pair algebra-coalgebra characterizes, indeed, a QFT system and its mirroring thermal bath, respectively, so to model dissipative quantum systems persistently in far-from-equilibrium conditions, with an evident significance also for biological sciences. The $q$-deformed Hopf Coalgebras and the $q$-deformed Hopf Algebras constitute two dual categories because characterized by the same functor $T$, related with the Bogoliubov transform, and by its contravariant application $T^{op}$, respectively. The \textit{q}-deformation parameter, indeed, is related to the Bogoliubov angle, and it is effectively a thermal parameter. Therefore, the different values of $q$ identify univocally, and then label, the vacua appearing in the foliation process of the quantum vacuum. This means that, in the framework of Universal Coalgebra, as general theory of dynamic and computing systems ("labelled state-transition systems"), the so labelled infinitely many quantum vacua can be interpreted as the Final Coalgebra of an "Infinite State Black-Box Machine". All this opens the way to the possibility of designing a new class of universal quantum computing architectures based on this coalgebraic formulation of QFT, as its ability of naturally generating a Fibonacci progression demonstrates., Comment: 20 pages

Published

2016

12. Perfect energy-feeding into strongly coupled systems and interferometric control of polariton absorption

Author

Zanotto, Simone, Mezzapesa, Francesco P., Bianco, Federica, Biasiol, Giorgio, Baldacci, Lorenzo, Vitiello, Miriam Serena, Sorba, Lucia, Colombelli, Raffaele, and Tredicucci, Alessandro

Subjects

Quantum Physics, Physics - Optics

Abstract

The ability to feed energy into a system, or - equivalently - to drive that system with an external input is a fundamental aspect of light-matter interaction. The key concept in many photonic applications is the "critical coupling" condition: at criticality, all the energy fed to the system via an input channel is dissipated within the system itself. Although this idea was crucial to enhance the efficiency of many devices, it was never considered in the context of systems operating in a non-perturbative regime. In this so-called strong coupling regime, the matter and light degrees of freedom are in fact mixed into dressed states, leading to new eigenstates called polaritons. Here we demonstrate that the strong coupling regime and the critical coupling condition can indeed coexist; in this situation, which we term strong critical coupling, all the incoming energy is converted into polaritons. A semiclassical theory - equivalently applicable to acoustics or mechanics - reveals that the strong critical coupling corresponds to a special curve in the phase diagram of the coupled light-matter oscillators. In the more general case of a system radiating via two scattering ports, the phenomenology displayed is that of coherent perfect absorption (CPA), which is then naturally understood and described in the framework of critical coupling. Most importantly, we experimentally verify polaritonic CPA in a semiconductor-based intersubband-polariton photonic-crystal membrane resonator. This result opens new avenues in the exploration of polariton physics, making it possible to control the pumping efficiency of a system almost independently of its Rabi energy, i.e., of the energy exchange rate between the electromagnetic field and the material transition.

Published

2016

13. Nanometre scale monitoring of the quantum confined stark effect and emission efficiency droop in multiple GaN/AlN quantum disks in nanowires

Author

Zagonel, L. F., Tizei, L. H. G., Vitiello, G. Z., Jacopin, G., Rigutti, L., Tchernycheva, M., Julien, F. H., Songmuang, R., Ostasevicius, T., de la Peña, F., Ducati, C., Midgley, P. A, and Kociak, M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Quantum Physics

Abstract

We report on a detailed study of the intensity dependent optical properties of individual GaN/AlN Quantum Disks (QDisks) embedded into GaN nanowires (NW). The structural and optical properties of the QDisks were probed by high spatial resolution cathodoluminescence (CL) in a scanning transmission electron microscope (STEM). By exciting the QDisks with a nanometric electron beam at currents spanning over 3 orders of magnitude, strong non-linearities (energy shifts) in the light emission are observed. In particular, we find that the amount of energy shift depends on the emission rate and on the QDisk morphology (size, position along the NW and shell thickness). For thick QDisks (>4nm), the QDisk emission energy is observed to blue-shift with the increase of the emission intensity. This is interpreted as a consequence of the increase of carriers density excited by the incident electron beam inside the QDisks, which screens the internal electric field and thus reduces the quantum confined Stark effect (QCSE) present in these QDisks. For thinner QDisks (<3 nm), the blue-shift is almost absent in agreement with the negligible QCSE at such sizes. For QDisks of intermediate sizes there exists a current threshold above which the energy shifts, marking the transition from unscreened to partially screened QCSE. From the threshold value we estimate the lifetime in the unscreened regime. These observations suggest that, counterintuitively, electrons of high energy can behave ultimately as single electron-hole pair generators. In addition, when we increase the current from 1 pA to 10 pA the light emission efficiency drops by more than one order of magnitude. This reduction of the emission efficiency is a manifestation of the efficiency droop as observed in nitride-based 2D light emitting diodes, a phenomenon tentatively attributed to the Auger effect., Comment: 21 pages, 11 figures, published in PRB

Published

2016

14. Linguistics and some aspects of its underlying dynamics

Author

Piattelli-Palmarini, Massimo and Vitiello, Giuseppe

Subjects

Computer Science - Computation and Language, Quantum Physics

Abstract

In recent years, central components of a new approach to linguistics, the Minimalist Program (MP) have come closer to physics. Features of the Minimalist Program, such as the unconstrained nature of recursive Merge, the operation of the Labeling Algorithm that only operates at the interface of Narrow Syntax with the Conceptual-Intentional and the Sensory-Motor interfaces, the difference between pronounced and un-pronounced copies of elements in a sentence and the build-up of the Fibonacci sequence in the syntactic derivation of sentence structures, are directly accessible to representation in terms of algebraic formalism. Although in our scheme linguistic structures are classical ones, we find that an interesting and productive isomorphism can be established between the MP structure, algebraic structures and many-body field theory opening new avenues of inquiry on the dynamics underlying some central aspects of linguistics., Comment: 17 pages

Published

2015

15. Vacuum condensate, geometric phase, Unruh effect and temperature measurement

Author

Capolupo, A. and Vitiello, G.

Subjects

Quantum Physics

Abstract

In our previous work it has been shown the possibility to use the Aharonov-Anandan invariant as a tool in the analysis of disparate systems, including Hawking and Unruh effects, as well as graphene physics and thermal states. We show that the vacuum condensation, characterizing such systems, is also related with geometric phases and we analyze the properties of the geometric phase of systems represented by mixed state and undergoing a nonunitary evolution. In particular, we consider two level atoms accelerated by an external potential and interacting with a thermal state. We propose the realization of Mach-Zehnder interferometers which can prove the existence of the Unruh effect and can allow very precise measurements of temperature., Comment: 8 pages, 2 figures

Published

2015

16. Probing Hawking and Unruh effects and quantum field theory in curved space by geometric invariants

Author

Capolupo, Antonio and Vitiello, Giuseppe

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, Quantum Physics

Abstract

The presence of noncyclic geometric invariant is revealed in all the phenomena where particle generation from vacuum or vacuum condensates appear. Aharonov--Anandan invariants then can help to study such systems and can represent a new tool to be used in order to provide laboratory evidence of phenomena particulary hard to be detected, such as Hawking and Unruh effects and some features of quantum field theory in curved space simulated by some graphene morphologies. It is finally suggested that a very precise quantum thermometer can be built by exploiting geometric invariants properties., Comment: 9 pages

Published

2013

17. Noncommutative spectral geometry and the deformed Hopf algebra structure of quantum field theory

Author

Sakellariadou, Mairi, Stabile, Antonio, and Vitiello, Giuseppe

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, Mathematical Physics, Quantum Physics

Abstract

We report the results obtained in the study of Alain Connes noncommutative spectral geometry construction focusing on its essential ingredient of the algebra doubling. We show that such a two-sheeted structure is related with the gauge structure of the theory, its dissipative character and carries in itself the seeds of quantization. From the algebraic point of view, the algebra doubling process has the same structure of the deformed Hops algebra structure which characterizes quantum field theory., Comment: 11 pages. Invited talk in the Sixth International Workshop DICE2012, Castello Pasquini/Castiglioncello (Tuscany), September 17-21, 2012

Published

2013

18. Fractals, coherent states and self-similarity induced noncommutative geometry

Author

Vitiello, Giuseppe

Subjects

Mathematical Physics, Quantum Physics

Abstract

The self-similarity properties of fractals are studied in the framework of the theory of entire analytical functions and the $q$-deformed algebra of coherent states. Self-similar structures are related to dissipation and to noncommutative geometry in the plane. The examples of the Koch curve and logarithmic spiral are considered in detail. It is suggested that the dynamical formation of fractals originates from the coherent boson condensation induced by the generators of the squeezed coherent states, whose (fractal) geometrical properties thus become manifest. The macroscopic nature of fractals appears to emerge from microscopic coherent local deformation processes., Comment: 2 figures

Published

2012

19. Cortical phase transitions, non-equilibrium thermodynamics and the time-dependent Ginzburg-Landau equation

Author

Freeman, W. J., Livi, R., Obinata, M., and Vitiello, G.

Subjects

Physics - Biological Physics, Quantitative Biology - Neurons and Cognition, Quantum Physics

Abstract

The formation of amplitude modulated and phase modulated assemblies of neurons is observed in the brain functional activity. The study of the formation of such structures requires that the analysis has to be organized in hierarchical levels, microscopic, mesoscopic, macroscopic, each with its characteristic space-time scales and the various forms of energy, electric, chemical, thermal produced and used by the brain. In this paper, we discuss the microscopic dynamics underlying the mesoscopic and the macroscopic levels and focus our attention on the thermodynamics of the non-equilibrium phase transitions. We obtain the time-dependent Ginzburg-Landau equation for the non-stationary regime and consider the formation of topologically non-trivial structures such as the vortex solution. The power laws observed in functional activities of the brain is also discussed and related to coherent states characterizing the many-body dissipative model of brain., Comment: 19 pages, 4 figures, research paper

Published

2011

20. Noncommutative spectral geometry, algebra doubling and the seeds of quantization

Author

Sakellariadou, Mairi, Stabile, Antonio, and Vitiello, Giuseppe

Subjects

Mathematical Physics, General Relativity and Quantum Cosmology, High Energy Physics - Theory, Quantum Physics

Abstract

A physical interpretation of the two-sheeted space, the most fundamental ingredient of noncommutative spectral geometry proposed by Connes as an approach to unification, is presented. It is shown that the doubling of the algebra is related to dissipation and to the gauge structure of the theory, the gauge field acting as a reservoir for the matter field. In a regime of completely deterministic dynamics, dissipation appears to play a key role in the quantization of the theory, according to 't Hooft's conjecture. It is thus argued that the noncommutative spectral geometry classical construction carries implicit in its feature of the doubling of the algebra the seeds of quantization., Comment: 12 pages; amended version to match publication in PRD

Published

2011

21. Geometric phase and gauge theory structure in quantum computing

Author

Bruno, A., Capolupo, A., Kak, S., Raimondo, G., and Vitiello, G.

Subjects

Quantum Physics

Abstract

We discuss the presence of a geometrical phase in the evolution of a qubit state and its gauge structure. The time evolution operator is found to be the free energy operator, rather than the Hamiltonian operator., Comment: 5 pages, presented at Fifth International Workshop DICE2010: Space-Time-Matter - current issues in quantum mechanics and beyond, Castiglioncello (Tuscany), September 13-17, 2010

Published

2011

22. Gauge theory and two level systems

Author

Bruno, A., Capolupo, A., Kak, S., Raimondo, G., and Vitiello, G.

Subjects

Quantum Physics, Condensed Matter - Other Condensed Matter

Abstract

We consider the time evolution of a two level system (a two level atom or a qubit) and show that it is characterized by a local (in time) gauge invariant evolution equation. The covariant derivative operator is constructed and related to the free energy. We show that the gauge invariant characterization of the time evolution of the two level system is analogous to the birefringence phenomenon in optics. The relation with Berry-like and Anandan--Aharonov phase is pointed out. Finally, we discuss entropy, environment effects and the distance in projective Hilbert space between two level states in their evolution., Comment: 7 pages

Published

2011

23. Emission of photons through cavity mirrors in the absence of external driving

Author

Beige, Almut, Capolupo, Antonio, Kurcz, Andreas, Del Giudice, Emilio, and Vitiello, Giuseppe

Subjects

Quantum Physics

Abstract

We present a mechanism of energy concentration in a system composed by an optical cavity and a large number of strongly confined atoms, which cannot be described in the rotating wave approximation. The mechanism consists in the emission of photons through the cavity mirrors even in the absence of external driving., Comment: 5 pages,conference proceedings DICE 2010

Published

2011

24. Concentrating Energy by Measurement

Author

Beige, Almut, Capolupo, Antonio, Kurcz, Andreas, Del Giudice, Emilio, and Vitiello, Giuseppe

Subjects

Quantum Physics

Abstract

In a recent article [A. Kurcz et al., Phys. Rev. A 81, 063821 (2010)] we predicted an energy concentrating mechanism in composite quantum systems. Its result is a non-zero stationary state photon emission rate even in the absence of external driving. Here we discuss the possible origin of the predicted effect. We attribute it to the presence of a non-trivial interaction between different system components and to repeated environment-induced photon measurements., Comment: 9 pages, 2 figures

Published

2010

25. DNA waves and water

Author

Montagnier, L., Aissa, J., Del Giudice, E., Lavallee, C., Tedeschi, A., and Vitiello, G.

Subjects

Quantitative Biology - Other Quantitative Biology, Quantum Physics

Abstract

Some bacterial and viral DNA sequences have been found to induce low frequency electromagnetic waves in high aqueous dilutions. This phenomenon appears to be triggered by the ambient electromagnetic background of very low frequency. We discuss this phenomenon in the framework of quantum field theory. A scheme able to account for the observations is proposed. The reported phenomenon could allow to develop highly sensitive detection systems for chronic bacterial and viral infections., Comment: Invited talk at the DICE2010 Conference, Castiglioncello, Italy September 2010

Published

2010

26. Rotating wave approximation and entropy

Author

Kurcz, Andreas, Capolupo, Antonio, Beige, Almut, Del Giudice, Emilio, and Vitiello, Giuseppe

Subjects

Mathematical Physics, Quantum Physics

Abstract

This paper studies composite quantum systems, like atom-cavity systems and coupled optical resonators, in the absence of external driving by resorting to methods from quantum field theory. Going beyond the rotating wave approximation, it is shown that the usually neglected counter-rotating part of the Hamiltonian relates to the entropy operator and generates an irreversible time evolution. The vacuum state of the system is shown to evolve into a generalized coherent state exhibiting entanglement of the modes in which the counter-rotating terms are expressed. Possible consequences at observational level in quantum optics experiments are currently under study., Comment: 8 pages, 1 figure, introduction extended

Published

2010

27. Energy concentration in composite quantum systems

Author

Kurcz, Andreas, Capolupo, Antonio, Beige, Almut, Del Giudice, Emilio, and Vitiello, Giuseppe

Subjects

Condensed Matter - Other Condensed Matter, Quantum Physics

Abstract

The spontaneous emission of photons from optical cavities and from trapped atoms has been studied extensively in the framework of quantum optics. Theoretical predictions based on the rotating wave approximation (RWA) are in general in very good agreement with experimental findings. However, current experiments aim at combining better and better cavities with large numbers of tightly confined atoms. Here we predict an energy concentrating mechanism in the behavior of such a composite quantum system which cannot be described by the RWA. Its result is the continuous leakage of photons through the cavity mirrors, even in the absence of external driving. We conclude with a discussion of the predicted phenomenon in the context of thermodynamics., Comment: 6 pages, 1 figures, version accepted in Physical Review A

Published

2009

28. An Initial Value Representation with Complex Trajectories

Author

de Aguiar, Marcus A. M., Vitiello, Silvio A., and Grigolo, Adriano

Subjects

Quantum Physics

Abstract

We present an Initial Value Representation for the semiclassical coherent state propagator based on complex trajectories. We map the complex phase space into a real phase space with twice as many dimensions and use a simple procedure to automatically eliminate non-contributing trajectories. The resulting semiclassical formulas do not show divergences due to caustics and provide accurate results., Comment: 20 pages, 1 figure

Published

2009

29. Dissipation and quantization for composite systems

Author

Blasone, M., Jizba, P., Scardigli, F., and Vitiello, G.

Subjects

Quantum Physics, High Energy Physics - Theory

Abstract

In the framework of 't Hooft's quantization proposal, we show how to obtain from the composite system of two classical Bateman's oscillators a quantum isotonic oscillator. In a specific range of parameters, such a system can be interpreted as a particle in an effective magnetic field, interacting through a spin-orbit interaction term. In the limit of a large separation from the interaction region one can describe the system in terms of two irreducible elementary subsystems which correspond to two independent quantum harmonic oscillators., Comment: 9 pages

Published

2009

30. Dissipation and spontaneous symmetry breaking in brain dynamics

Author

Freeman, Walter J. and Vitiello, Giuseppe

Subjects

Quantitative Biology - Neurons and Cognition, Quantum Physics

Abstract

We compare the predictions of the dissipative quantum model of brain with neurophysiological data collected from electroencephalograms resulting from high-density arrays fixed on the surfaces of primary sensory and limbic areas of trained rabbits and cats. Functional brain imaging in relation to behavior reveals the formation of coherent domains of synchronized neuronal oscillatory activity and phase transitions predicted by the dissipative model., Comment: Restyled, slight changes in title and abstract, updated bibliography, J. Phys. A: Math. Theor. Vol. 41 (2008) in print

Published

2007

31. The role of the electromagnetic field in the formation of domains in the process of symmetry breaking phase transitions

Author

Del Giudice, Emilio and Vitiello, Giuseppe

Subjects

Condensed Matter - Other Condensed Matter, High Energy Physics - Theory, Quantum Physics

Abstract

In the framework of quantum field theory we discuss the emergence of a phase locking among the electromagnetic modes and the matter components on an extended space-time region. We discuss the formation of extended domains exhibiting in their fundamental states non-vanishing order parameters, whose existence is not included in the Lagrangian. Our discussion is motivated by the interest in the study of the general problem of the stability of mesoscopic and macroscopic complex systems arising from fluctuating quantum components in connection with the problem of defect formation during the process of non-equilibrium symmetry breaking phase transitions characterized by an order parameter., Comment: Physical Review A, in the press

Published

2006

32. Nonlinear brain dynamics as macroscopic manifestation of underlying many-body field dynamics

Author

Freeman, Walter J. and Vitiello, Giuseppe

Subjects

Quantitative Biology - Other Quantitative Biology, Quantum Physics

Abstract

Neural activity patterns related to behavior occur at many scales in time and space from the atomic and molecular to the whole brain. Here we explore the feasibility of interpreting neurophysiological data in the context of many-body physics by using tools that physicists have devised to analyze comparable hierarchies in other fields of science. We focus on a mesoscopic level that offers a multi-step pathway between the microscopic functions of neurons and the macroscopic functions of brain systems revealed by hemodynamic imaging. We use electroencephalographic (EEG) records collected from high-density electrode arrays fixed on the epidural surfaces of primary sensory and limbic areas in rabbits and cats trained to discriminate conditioned stimuli (CS) in the various modalities. High temporal resolution of EEG signals with the Hilbert transform gives evidence for diverse intermittent spatial patterns of amplitude (AM) and phase modulations (PM) of carrier waves that repeatedly re-synchronize in the beta and gamma ranges at near zero time lags over long distances. The dominant mechanism for neural interactions by axodendritic synaptic transmission should impose distance-dependent delays on the EEG oscillations owing to finite propagation velocities. It does not. EEGs instead show evidence for anomalous dispersion: the existence in neural populations of a low velocity range of information and energy transfers, and a high velocity range of the spread of phase transitions. This distinction labels the phenomenon but does not explain it. In this report we explore the analysis of these phenomena using concepts of energy dissipation, the maintenance by cortex of multiple ground states corresponding to AM patterns, and the exclusive selection by spontaneous breakdown of symmetry (SBS) of single states in sequences., Comment: 31 pages

Published

2005

33. Cooling many particles to very low temperatures

Author

Beige, Almut, Knight, Peter L., and Vitiello, Giuseppe

Subjects

Quantum Physics

Abstract

In a recent paper [Beige, Knight, and Vitiello, quant-ph/0404160], we showed that a large number N of particles can be cooled very efficiently using a bichromatic interaction. The particles should be excited by red-detuned laser fields while coupling to the quantized field mode inside a resonant and leaky optical cavity. When the coupling constants are for all particles the same, a collective behavior can be generated and the cooling rate can be as large as square root of N times the single-particle coupling constants. Here we study the algebraic structure of the dynamics and the origin of the collective cooling process in more detail., Comment: 8 pages, 2 figures, Proceedings for the conference "From Decoherence and Emergent Classicality to Emergent Quantum Mechanics," DICE2004 in Piombino, minor changes

Published

2004

34. The dissipative brain

Author

Vitiello, Giuseppe

Subjects

Quantitative Biology - Other Quantitative Biology, Quantum Physics

Abstract

I review the dissipative quantum model of brain and discuss its recent developments related with the role of entanglement, quantum noise and chaos. Some comments on consciousness in the frame of the dissipative model are also presented. Dissipation seems to account for the medial character of consciousness, for its being in the present (the Now), its un-dividable unity, its intrinsic subjectivity (autonomy). Finally, essential features of a conscious artificial device, if ever one can construct it, are briefly commented upon, also in relation to a device able to exhibit mistakes in its behavior. The name I give to such a hypothetical device is Spartacus., Comment: 14 pages

Published

2004

35. Quantum noise induced entanglement and chaos in the dissipative quantum model of brain

Author

Pessa, Eliano and Vitiello, Giuseppe

Subjects

Quantum Physics, Quantitative Biology - Other Quantitative Biology

Abstract

We discuss some features of the dissipative quantum model of brain in the frame of the formalism of quantum dissipation. Such a formalism is based on the doubling of the system degrees of freedom. We show that the doubled modes account for the quantum noise in the fluctuating random force in the system-environment coupling. Remarkably, such a noise manifests itself through the coherent structure of the system ground state. The entanglement of the system modes with the doubled modes is shown to be permanent in the infinite volume limit. In such a limit the trajectories in the memory space are classical chaotic trajectories., Comment: 14 pages

Published

2004

36. Cooling many particles at once

Author

Beige, Almut, Knight, Peter L., and Vitiello, Giuseppe

Subjects

Quantum Physics

Abstract

We propose a mechanism for the collective cooling of a large number N of trapped particles to very low temperatures by applying red-detuned laser fields and coupling them to the quantized field inside an optical resonator. The dynamics is described by what appears to be rate equations, but where some of the major quantities are coherences and not populations. The cooperative behavior of the system provides cooling rates of the same order of magnitude as the cavity decay rate kappa. This constitutes a significant speed-up compared to other cooling mechanisms since kappa can, in principle, be as large as square root of N times the single-particle cavity or laser coupling constant., Comment: 11 pages, 2 figure, minor changes, accepted for publication in New J. Phys

Published

2004

37. Quantum linear mutual information and classical correlations in globally pure bipartite systems

Author

Angelo, R. M., Vitiello, S. A., de Aguiar, M. A. M., and Furuya, K.

Subjects

Quantum Physics

Abstract

We investigate the correlations of initially separable probability distributions in a globally pure bipartite system with two degrees of freedom for classical and quantum systems. A classical version of the quantum linear mutual information is introduced and the two quantities are compared for a system of oscillators coupled with both linear and non-linear interactions. The classical correlations help to understand how much of the quantum loss of purity are due to intrinsic quantum effects and how much is related to the probabilistic character of the initial states, a characteristic shared by both the classical and quantum pictures. Our examples show that, for initially localized Gaussian states, the classical statistical mutual linear entropy follows its quantum counterpart for short times. For non-Gaussian states the behavior of the classical and quantum measures of information are still qualitatively similar, although the fingerprints of the non-classical nature of the initial state can be observed in their different amplitudes of oscillation., Comment: (16 pages, 4 figures)

Published

2004

38. Quantum noise, entanglement and chaos in the quantum field theory of mind/brain states

Author

Pessa, Eliano and Vitiello, Giuseppe

Subjects

Quantitative Biology - Other Quantitative Biology, Quantitative Biology - Neurons and Cognition, Quantum Physics

Abstract

We review the dissipative quantum model of brain and present recent developments related with the r\^ole of entanglement, quantum noise and chaos in the model., Comment: 15 pages

Published

2003

39. A Preliminar Evidence of Quantum Like Behavior in Measurements of Mental States

Author

Conte, Elio, Todarello, Orlando, Federici, Antonio, Vitiello, Francesco, Lopane, Michele, and Khrennikov, Andrei

Subjects

Quantum Physics

Abstract

Experimental results presented in this paper supports the hypothesis on quantum-like statistical behaviour of cognitive systems (at least human beings). Our quantum-like approach gives the possibility to represent mental states by Hilbert space vectors (complex amplitudes). Such a representation induces huge reduction of information about a mental state. We realize an approach that has no direct relation with reductionist quantum models and we are not interested in statistical behavior of micro systems forming the macro system of the brain. We describe only probabilistic features of cognitive measurements. Our quantum-like approach describes statistics of measurements of cognitive systems with the aim to ascertain if cognitive systems behave as quantum-like systems where here quantum-like cognitive behavior means that cognitive systems result to be very sensitive to changes of the context with regard to the complex of the mental conditions.

Published

2003

40. Quantum limit of deterministic theories

Author

Blasone, M., Jizba, P., and Vitiello, G.

Subjects

Quantum Physics

Abstract

We show that the quantum linear harmonic oscillator can be obtained in the large $N$ limit of a classical deterministic system with SU(1,1) dynamical symmetry. This is done in analogy with recent work by G.'t Hooft who investigated a deterministic system based on SU(2). Among the advantages of our model based on a non--compact group is the fact that the ground state energy is uniquely fixed by the choice of the representation., Comment: 4 pages, 2 figures, minor corrections added. To appear in the Proceedings of Waseda International Symposium on Fundamental Physics: "New Perspectives in Quantum Physics", 12-15 November 2002, Waseda University, Tokyo, Japan

Published

2003

41. Dissipation, Emergent Quantization and Quantum Fluctuations

Author

Blasone, M., Jizba, P., and Vitiello, G.

Subjects

Quantum Physics

Abstract

We review some aspects of the quantization of the damped harmonic oscillator. We derive the exact action for a damped mechanical system in the frame of the path integral formulation of the quantum Brownian motion problem developed by Schwinger and by Feynman and Vernon. The doubling of the phase-space degrees of freedom for dissipative systems and thermal field theories is discussed and the doubled variables are related to quantum noise effects. The 't Hooft proposal, according to which the loss of information due to dissipation in a classical deterministic system manifests itself in the quantum features of the system, is analyzed and the quantum spectrum of the harmonic oscillator is shown to be originated from the dissipative character of the original classical deterministic system., Comment: Invited talk at the International Workshop DICE2002 "Decoherence, Information, Complexity and Entropy" - Piombino (Tuscany), September 2-6, 2002

Published

2003

42. Quantum dissipation induced noncommutative geometry

Author

Sivasubramanian, S., Srivastava, Y. N., Vitiello, G., and Widom, A.

Subjects

Quantum Physics

Abstract

The quantum statistical dynamics of a position coordinate x coupled to a reservoir requires theoretically two copies of the position coordinate within the reduced density matrix description. One coordinate moves forward in time while the other coordinate moves backward in time. It is shown that quantum dissipation induces, in the plane of the forward and backward motions, a noncommutative geometry. The noncommutative geometric plane is a consequence of a quantum dissipation induced phase interference which is closely analogous to the Aharanov-Bohm effect., Comment: 12 pages, 2 figures

Published

2003

43. Quantization, group contraction and zero point energy

Author

Blasone, M., Celeghini, E., Jizba, P., and Vitiello, G.

Subjects

Quantum Physics, High Energy Physics - Theory

Abstract

We study algebraic structures underlying 't Hooft's construction relating classical systems with the quantum harmonic oscillator. The role of group contraction is discussed. We propose the use of SU(1,1) for two reasons: because of the isomorphism between its representation Hilbert space and that of the harmonic oscillator and because zero point energy is implied by the representation structure. Finally, we also comment on the relation between dissipation and quantization., Comment: 6 pages, 3 figures

Published

2002

44. Quantization of scalar fields in curved background, deformed Hopf algebra and entanglement

Author

Iorio, A., Lambiase, G., and Vitiello, G.

Subjects

Quantum Physics

Abstract

A suitable deformation of the Hopf algebra of the creation and annihilation operators for a complex scalar field, initially quantized in Minkowski space--time, induces the canonical quantization of the same field in a generic gravitational background. The deformation parameter q turns out to be related to the gravitational field. The entanglement of the quantum vacuum appears to be robust against interaction with the environment., Comment: 4 pages, to appear in Proceedings of the XXIV International Colloquium on Group Theoretical Methods in Physics, Paris, 14-21 July 2002

Published

2002

45. Hopf algebra, thermodynamics and entanglement in quantum field theory

Author

Iorio, A., Lambiase, G., and Vitiello, G.

Subjects

Quantum Physics

Abstract

The quantum deformation of the Hopf algebra describes the skeleton of quantum field theory, namely its characterizing feature consisting in the existence of infinitely many unitarily inequivalent representations of the canonical commutation relations. From this we derive the thermal properties of quantum field theory, with the entropy playing the role of the generator of the non-unitary time evolution. The entanglement of the quantum vacuum appears to be robust against interaction with the environment: on cannot ``unknot the knots" in the infinite volume limit., Comment: 6 pages, to appear in Proceedings of the First International Conference on Quantum Limits to the Second Law, July 29-31, 2002, University of San Diego, San Diego, California, USA

Published

2002

46. Entangled Quantum Fields near the Event Horizon and Entropy

Author

Iorio, A., Lambiase, G., and Vitiello, G.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, Quantum Physics

Abstract

By fully exploiting the existence of the unitarily inequivalent representations of quantum fields, we exhibit the entanglement between inner and outer particles, with respect to the event horizon of a black hole. We compute the entanglement entropy and we find that the nonunitarity of the mapping, between the vacua in the flat and the curved frames, makes the entanglement very robust., Comment: 15 pages, RevTeX. Changes in the spirit of the paper. Rearranged title, abstract and conclusions. Published on Annals of Physics

Published

2002

47. Domain formation in noninstantaneous symmetry breaking phase transitions

Author

Alfinito, E. and Vitiello, G.

Subjects

Condensed Matter, High Energy Physics - Theory, Quantum Physics

Abstract

In the framework of the Ginzburg-Landau harmonic potential approximation, we present a possible modeling of the time-dependence of the frequency of the order parameter mode suitable to account for the formation of correlated domains in non-instantaneous symmetry breaking phase transitions. An interesting spectrum of possibilities for the size and the life-time of these domains emerges, which appears to be consistent with the conclusions of other, differently grounded analysis., Comment: Revised version, accepted for publications on PRB

Published

2001

48. On topological defect formation in the process of symmetry breaking phase transitions

Author

Alfinito, E., Romei, O., and Vitiello, G.

Subjects

Condensed Matter, Quantum Physics

Abstract

By resorting to some results in quantum field theories with spontaneous breakdown of symmetry we show that an explanation based on microscopic dynamics can be given of the fact that topological defect formation is observed during the process of non-equilibrium phase transitions characterized by a non-zero order parameter. We show that the Nambu-Goldstone particle acquires an effective non-zero mass due to the boundary (finite volume) effects and this is related with the size of the defect. We also relate such volume effect with temperature effect., Comment: 12 pages, no figures

Published

2001

49. Dissipation and quantization

Author

Blasone, Massimo, Jizba, Petr, and Vitiello, Giuseppe

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, Quantum Physics

Abstract

We show that the dissipation term in the Hamiltonian for a couple of classical damped-amplified oscillators manifests itself as a geometric phase and is actually responsible for the appearance of the zero point energy in the quantum spectrum of the 1D linear harmonic oscillator. We also discuss the thermodynamical features of the system. Our work has been inspired by 't Hooft proposal according to which information loss in certain classical systems may lead to ``an apparent quantization of the orbits which resembles the quantum structure seen in the real world"., Comment: 4 pages, RevTeX, 1 figure. Revised version with minor changes

Published

2000

50. The decoherence criterion

Author

Alfinito, Eleonora, Viglione, Rosario G., and Vitiello, Giuseppe

Subjects

Quantum Physics, Condensed Matter - Statistical Mechanics, Physics - Physics Education

Abstract

The decoherence mechanism signals the limits beyond which the system dynamics approaches the classical behavior. We show that in some cases decoherence may also signal the limits beyond which the system dynamics has to be described by quantum field theory, rather than by quantum mechanics., Comment: revised paper, in print on Mod. Phys. Lett. B

Published

2000