Your search keyword '"G., Bimonte"' showing total 19 results

1. Symmetry nonrestoration and inverse symmetry breaking on the lattice

Author

G. Bimonte, G. Lozano, Bimonte, GIUSEPPE ROBERTO, and G., Lozano

Subjects

High Energy Physics - Theory, Physics, Nuclear and High Energy Physics, High Energy Physics - Theory (hep-th), Continuum (measurement), Lattice (order), FOS: Physical sciences, Inverse, Symmetry breaking, Mathematical physics

Abstract

We study the finite temperature symmetry behaviour of O(N_1) \times O(N_2) scalar models on the lattice and we prove that at sufficiently high temperatures and in arbitrary dimensions their full symmetry is always restored or, equivalently, that the phenomenon of Symmetry Non Restoration which, according to lowest order perturbation theory, takes place in the continuum version of these models, does not occur on the lattice., 13 pages, latex, no figures

Published

1996

2. Low noise cryogenic system for the measurement of Casimir energy in rigid cavities

Author

BIMONTE, GIUSEPPE ROBERTO, Detlef Born, CALLONI, ENRICO, Giampiero Esposito, Uwe Huebner, Evgeni Il'ichev, ROSA, LUIGI, Tafuri, Francesco, VAGLIO, RUGGERO, ESPOSITO, Giampiero, Bimonte, GIUSEPPE ROBERTO, Detlef, Born, Calloni, Enrico, Giampiero, Esposito, Uwe, Huebner, Evgeni, Il'Ichev, Rosa, Luigi, Tafuri, Francesco, Vaglio, Ruggero, Esposito, Giampiero, G., Bimonte, D., Born, E., Calloni, G., Esposito, U., Huebner, E., Ilichev, L., Rosa, and R., Vaglio

Subjects

Statistics and Probability, Superconductivity, Quantum Physics, Photon, Materials science, Condensed matter physics, Zero (complex analysis), General Physics and Astronomy, chemistry.chemical_element, Physics::Optics, FOS: Physical sciences, Statistical and Nonlinear Physics, superconductors, Low noise, Casimir effect, chemistry, Aluminium, Modeling and Simulation, Casimir energy, Thermal, Thin film, Quantum Physics (quant-ph), Mathematical Physics

Abstract

We report on preliminary results on the measurement of variations of the Casimir energy in rigid cavities through its influence on the superconducting transition of in-cavity aluminium (Al) thin films. After a description of the experimental apparatus we report on a measurement made with thermal photons, discussing its implications for the zero-point photons case. Finally we show the preliminary results for the zero-point case., Comment: 9 pages, 7 figures, Talk given at QFEXT07 Conference in Liepzig: Quantum Field Theory Under the Influence of External Conditions

Published

2007

3. The Aladin2 experiment: sensitivity study

Author

Evgeni Il'ichev, Giampiero Esposito, Giuseppe Bimonte, D. Born, F. Tafuri, Uve Hubner, Luigi Rosa, Ruggero Vaglio, Enrico Calloni, Ornella Scaldaferri, Calloni, Enrico, Bimonte, GIUSEPPE ROBERTO, Vaglio, Ruggero, Rosa, Luigi, Esposito, Giampiero, G., Bimonte, D., Born, E., Calloni, G., Esposito, U., HU BNER, E., Ilichev, L., Rosa, O., Scaldaferria, Tafuri, Francesco, and R., Vaglio

Subjects

Physics, Nuclear and High Energy Physics, Casimir pressure, Phase transition, Quantum Physics, FOS: Physical sciences, Mechanics, Rigid body, Casimir effect, Classical mechanics, Vacuum energy, Casimir energy, Sensitivity (control systems), Quantum Physics (quant-ph), Instrumentation, Quantum fluctuation, rigid body, Cosmological constant problem

Abstract

Aladin2 is an experiment devoted to the first measurement of variations of Casimir energy in a rigid body. The main short-term scientific motivation relies on the possibility of the first demonstration of a phase transition influenced by vacuum fluctuations while, in the long term and in the mainframe of the cosmological constant problem, it can be regarded as the first step towards a measurement of the weight of vacuum energy. In this paper, after a presentation of the guiding principle of the measurement, the experimental apparatus and sensitivity studies on final cavities will be presented., 4 pages, Latex macros, 10th Conference on Frontier Detectors for Frontier Physics, Isola D'Elba, 21-27 May 2006

Published

2006

4. Noncommutative lattices and their continuum limits

Author

Elisa Ercolessi, Giuseppe Bimonte, Fedele Lizzi, Giovanni Landi, P. Teotonio-Sobrinho, G. Sparano, Bimonte, GIUSEPPE ROBERTO, E., Ercolessi, G., Landi, Lizzi, Fedele, G., Sparano, P., TEOTONIO SOBRINHO, G., Bimonte, Landi, Giovanni, and F., Lizzi

Subjects

Physics, High Energy Physics - Theory, Pure mathematics, Continuum (topology), Approximations of π, Mathematics::Operator Algebras, High Energy Physics::Lattice, High Energy Physics - Lattice (hep-lat), Structure (category theory), General Physics and Astronomy, FOS: Physical sciences, Topological space, Space (mathematics), Noncommutative geometry, Projective system, High Energy Physics - Lattice, Noncommutative Geometry, High Energy Physics - Theory (hep-th), Mathematics::K-Theory and Homology, Mathematics::Quantum Algebra, Geometry and Topology, Algebra over a field, Mathematical Physics

Abstract

We consider finite approximations of a topological space $M$ by noncommutative lattices of points. These lattices are structure spaces of noncommutative $C^*$-algebras which in turn approximate the algebra $\cc(M)$ of continuous functions on $M$. We show how to recover the space $M$ and the algebra $\cc(M)$ from a projective system of noncommutative lattices and an inductive system of noncommutative $C^*$-algebras, respectively., Comment: 22 pages, 8 Figures included in the LaTeX Source New version, minor modifications (typos corrected) and a correction in the list of authors

Published

1996

5. Lattice Gauge Fields and Noncommutative Geometry

Author

Giuseppe Bimonte, Fedele Lizzi, P. Teotonio-Sobrinho, Giovanni Landi, A. P. Balachandran, A. P., Balachandran, G., Bimonte, Landi, Giovanni, F., Lizzi, and P., TEOTONIO SOBRINHO

Subjects

High Energy Physics - Theory, Quantum chromodynamics, Physics, Spacetime, High Energy Physics::Lattice, High Energy Physics - Lattice (hep-lat), General Physics and Astronomy, FOS: Physical sciences, General Relativity and Quantum Cosmology (gr-qc), Noncommutative geometry, General Relativity and Quantum Cosmology, Cohomology, symbols.namesake, Theoretical physics, High Energy Physics::Theory, High Energy Physics - Lattice, High Energy Physics - Theory (hep-th), Cup product, symbols, Geometry and Topology, Gauge theory, Algebraic number, Hamiltonian (quantum mechanics), Mathematical Physics

Abstract

Conventional approaches to lattice gauge theories do not properly consider the topology of spacetime or of its fields. In this paper, we develop a formulation which tries to remedy this defect. It starts from a cubical decomposition of the supporting manifold (compactified spacetime or spatial slice) interpreting it as a finite topological approximation in the sense of Sorkin. This finite space is entirely described by the algebra of cochains with the cup product. The methods of Connes and Lott are then used to develop gauge theories on this algebra and to derive Wilson's actions for the gauge and Dirac fields therefrom which can now be given geometrical meaning. We also describe very natural candidates for the QCD theta term and Chern-Simons action suggested by this algebraic formulation. Some of these formulations are simpler than currently available alternatives. The paper treats both the functional integral and Hamiltonian approaches., Comment: 34 pages, Latex, Minor corrections, Section 6 corrected

Published

1996

6. Lattices and their continuum limits

Author

Giuseppe Bimonte, Elisa Ercolessi, G. Sparano, Fedele Lizzi, Giovanni Landi, P. Teotonio-Sobrinho, Bimonte, GIUSEPPE ROBERTO, E., Ercolessi, G., Landi, Lizzi, Fedele, G., Sparano, P., TEOTONIO SOBRINHO, G., Bimonte, Landi, Giovanni, and F., Lizzi

Subjects

High Energy Physics - Theory, Physics, Pure mathematics, Continuum (topology), High Energy Physics::Lattice, High Energy Physics - Lattice (hep-lat), Hausdorff space, General Physics and Astronomy, FOS: Physical sciences, Topological space, Noncommutative geometry, High Energy Physics - Lattice, Noncommutative Geometry, High Energy Physics - Theory (hep-th), Geometry and Topology, Inverse limit, Limit (mathematics), Mathematical Physics, Quotient, Universal space

Abstract

We address the problem of the continuum limit for a system of Hausdorff lattices (namely lattices of isolated points) approximating a topological space $M$. The correct framework is that of projective systems. The projective limit is a universal space from which $M$ can be recovered as a quotient. We dualize the construction to approximate the algebra ${\cal C}(M)$ of continuous functions on $M$. In a companion paper we shall extend this analysis to systems of noncommutative lattices (non Hausdorff lattices)., Comment: 11 pages, 1 Figure included in the LaTeX Source New version, minor modifications (typos corrected) and a correction in the list of authors

Published

1996

7. NONCOMMUTATIVE LATTICES AS FINITE APPROXIMATIONS

Author

Elisa Ercolessi, Giuseppe Bimonte, G. Sparano, A. P. Balachandran, Fedele Lizzi, Giovanni Landi, P. Teotonio-Sobrinho, A. P., Balachandran, Bimonte, GIUSEPPE ROBERTO, E., Ercolessi, G., Landi, Lizzi, Fedele, G., Sparano, P., TEOTONIO SOBRINHO, G., Bimonte, Landi, Giovanni, and F., Lizzi

Subjects

Physics, Pure mathematics, General Physics and Astronomy, Observable, Topological space, Noncommutative geometry, Manifold, symbols.namesake, Noncommutative Geometry, Lattice (order), symbols, Geometry and Topology, Hamiltonian (quantum mechanics), Partially ordered set, Commutative property, Mathematical Physics

Abstract

Lattice discretizations of continuous manifolds are common tools used in a variety of physical contexts. Conventional discrete approximations, however, cannot capture all aspects of the original manifold, notably its topology. In this paper we discuss an approximation scheme due to Sorkin which correctly reproduces important topological aspects of continuum physics. The approximating topological spaces are partially ordered sets (posets), the partial order encoding the topology. Now, the topology of a manifold $M$ can be reconstructed from the commutative C*-algebra $\cc(M)$ of continuous functions defined on it. In turn, this algebra is generated by continuous probability densities in ordinary quantum physics on $M$. The latter also serve to specify the domains of observables like the Hamiltonian. For a poset, the role of this algebra is assumed by a noncommutative C$^*$-algebra $\ca $. This fact makes any poset a genuine `noncommutative' (`quantum') space, in the sense that the algebra of its `continuous functions' is a noncommutative C$^*$-algebra. We therefore also have a remarkable connection between finite approximations to quantum physics and noncommutative geometries. We use this connection to develop various approximation methods for doing quantum physics using $\ca$.

Published

1996

8. An interdisciplinary educational path to understand the economic phenomena of a fluid and complex world with mathematics.

Author

Bimonte G, Tortoriello FS, and Veronesi I

Abstract

In this paper, we describe an activity that involves economics and mathematics. It is included in the planning of orientation paths towards university studies within the Mathematical High School Project and is dedicated to students in the last years of high school. In particular, this research will deal with the issue of solving an economic problem using not only real analysis instruments but also geometrical topics concerning Euclidean geometry and topology. Mathematics becomes a language to understand and explain a real life problem, such as determining the optimal position of an airport, a nuclear reactor and so on. Some activities made use of dynamic geometry software and computer simulations., Competing Interests: Conflict of interestDisclosure of potential conflicts of interest: Author G. Bimonte declares that he has no conflict of interest. Author F.S. Tortoriello declares that he has no conflict of interest. Author I. Veronesi declares that she has no conflict of interest., (© The Author(s) 2023.)

Published

2023

9. Multiple Scattering Expansion for Dielectric Media: Casimir Effect.

Author

Emig T and Bimonte G

Abstract

Recent measurements of Casimir forces have provided evidence of an intricate modification of quantum fluctuations of the electromagnetic field in complex geometries. Here we introduce a multiple scattering description for Casimir interactions between bodies of arbitrary shape and material composition, admitting an expansion as a sequence of inter- and intra-body wave scatterings. Interactions in complex geometries can be computed within the current experimental resolution from typically a few wave scatterings, notably without any a priori knowledge of the scattering amplitudes of the bodies. Some first applications demonstrate the power of the approach.

Published

2023

10. Interplay of curvature and temperature in the Casimir-Polder interaction.

Author

Bimonte G and Emig T

Abstract

We study the Casimir-Polder interaction at finite temperatures between a polarizable small, anisotropic particle and a non-planar surface using a derivative expansion. We obtain the leading and the next-to-leading curvature corrections to the interaction for low and high temperatures. Explicit results are provided for the retarded limit in the presence of a perfectly conducting surface.

Published

2015

11. A robust superconducting setup to probe the thermal Casimir effect.

Author

Bimonte G

Abstract

We describe a superconducting Casimir apparatus inspired by a recently proposed setup involving magnetic surfaces (Bimonte G 2014 Phys. Rev. Lett. 112 240401). The present setup consists of a superconducting Nb sphere and a flat gold plate including in its interior a superconducting Nb strip. The experimental scheme involves a differential measurement of the Casimir force at a point of the gold plate above the Nb strip and away from it. We show that similar to the previous setup, the superconducting system considered here implies widely different modulations of the Casimir force, depending on whether the thermal force is computed using the Drude or the plasma model, thus paving the way to an unambiguous discrimination between these alternative prescriptions.

Published

2015

12. Apparatus for measuring the thermal Casimir force at large distances.

Author

Bimonte G

Abstract

We describe a Casimir apparatus based on a differential force measurement between a Au-coated sphere and a planar slab divided in two regions, one of which is made of high-resistivity (dielectric) Si, and the other of Au. The crucial feature of the setup is a semitransparent plane parallel conducting overlayer, covering both regions. The setup offers two important advantages over existing Casimir setups. On one hand, it leads to a large amplification of the difference between the Drude and the plasma prescriptions that are currently used to compute the thermal Casimir force. On the other hand, thanks to the screening power of the overlayer, it is in principle immune from electrostatic forces caused by potential patches on the plates surfaces, that plague present large distance Casimir experiments. If a semitransparent conductive overlayer with identical patch structure over the Au-Si regions of the plate can be manufactured, similar to the opaque overlayers used in recent searches of non-Newtonian gravitational forces based on the isoelectronic technique, the way will be paved for a clear observation of the thermal Casimir force up to separations of several microns, and an unambiguous discrimination between the Drude and the plasma prescriptions.

Published

2014

13. Hide it to see it better: a robust setup to probe the thermal Casimir effect.

Author

Bimonte G

Abstract

We describe a Casimir setup consisting of two aligned sinusoidally corrugated Ni surfaces, one of which is "hidden" by a thin opaque layer of gold with a flat exposed surface. The gold layer acts as a low-pass filter that allows for a clean observation of the controversial thermal Casimir force between the corrugations, with currently available Casimir apparatuses. The proposed scheme of measurement, based on the phase-dependent modulation of the Casimir force, requires no electrostatic calibrations of the apparatus, and is unaffected by uncertainties in the knowledge of the optical properties of the surfaces. This scheme should allow for an unambiguous discrimination between alternative theoretical prescriptions that have been proposed in the literature for the thermal Casimir effect.

Published

2014

14. Exact results for classical Casimir interactions: Dirichlet and Drude model in the sphere-sphere and sphere-plane geometry.

Author

Bimonte G and Emig T

Abstract

Analytic expressions that describe Casimir interactions over the entire range of separations have been limited to planar surfaces. Here we derive analytic expressions for the classical or high-temperature limit of Casimir interactions between two spheres (interior and exterior configurations), including the sphere-plane geometry as a special case, using bispherical coordinates. We consider both Dirichlet boundary conditions and metallic boundary conditions described by the Drude model. At short distances, closed-form expansions are derived from the exact result, displaying an intricate structure of deviations from the commonly employed proximity force approximation.

Published

2012

15. A theory of electromagnetic fluctuations for metallic surfaces and van der waals interactions between metallic bodies.

Author

Bimonte G

Abstract

A new general expression is derived for the fluctuating electromagnetic field outside a metal surface in terms of its surface impedance. It provides a generalization to real metals of Lifshitz theory of molecular interactions between dielectric solids. The theory is used to compute the radiative heat transfer between two parallel metal surfaces at different temperatures. It is shown that a measurement of this quantity may provide an experimental resolution of a long-standing controversy about the effect of thermal corrections on the Casimir force between real metal plates.

Published

2006

16. Comment on "Low-frequency character of the Casimir force between metallic films".

Author

Bimonte G

Abstract

In Phys. Rev. E 70, 047102 (2004), Torgerson and Lamoreaux investigated for the first time the real-frequency spectrum of the finite temperature correction to the Casimir force, for metallic plates of finite conductivity. The very interesting result of this study is that the large correction from the TE mode is dominated by low frequencies, for which the dielectric description of the metal is invalid, and the authors correctly point out that a more realistic description is provided by low-frequency metallic boundary conditions. However, their subsequent analysis uses an incorrect form of metallic boundary conditions for TE modes. After correcting this error, we find that their main conclusion was nevertheless qualitatively correct: contrary to the result of the dielectric model, the thermal TE mode correction leads to an increase in the TE mode force of attraction between the plates. The correction found by us, however, has a magnitude about 20 times larger than that quoted by Torgerson and Lamoreaux.

Published

2006

17. Towards measuring variations of Casimir energy by a superconducting cavity.

Author

Bimonte G, Calloni E, Esposito G, Milano L, and Rosa L

Abstract

We consider a Casimir cavity, one plate of which is a thin superconducting film. We show that when the cavity is cooled below the critical temperature for the onset of superconductivity, the sharp variation (in the far infrared) of the reflection coefficient of the film engenders a variation in the value of the Casimir energy. Even though the relative variation in the Casimir energy is very small, its magnitude can be comparable to the condensation energy of the superconducting film, and this gives rise to a number of testable effects, including a significant increase in the value of the critical magnetic field, required to destroy the superconductivity of the film. The theoretical ground is therefore prepared for the first experiment ever aimed at measuring variations of the Casimir energy itself.

Published

2005

18. SUq(2) lattice gauge theory.

Author

Bimonte G, Stern A, and Vitale P

Published

1996

19. Z flux-line lattices and self-dual equations in the standard model.

Author

Bimonte G and Lozano G

Published

1994