Your search keyword '"Dell'Antonio G"' showing total 17 results

1. A Class of Hamiltonians for a Three-Particle Fermionic System at Unitarity

Author

Correggi, M., Dell'Antonio, G., Finco, D., Michelangeli, A., and Teta, A.

Subjects

Mathematical Physics, Condensed Matter - Quantum Gases

Abstract

We consider a quantum mechanical three-particle system made of two identical fermions of mass one and a different particle of mass $ m $, where each fermion interacts via a zero-range force with the different particle. In particular we study the unitary regime, i.e., the case of infinite two-body scattering length. The Hamiltonians describing the system are, by definition, self-adjoint extensions of the free Hamiltonian restricted on smooth functions vanishing at the two-body coincidence planes, i.e., where the positions of two interacting particles coincide. It is known that for $ m $ larger than a critical value $ m^* \simeq (13.607)^{-1} $ a self-adjoint and lower bounded Hamiltonian $ H_0 $ can be constructed, whose domain is characterized in terms of the standard point-interaction boundary condition at each coincidence plane. Here we prove that for $ m \in( m^*,m^{**}) $, where $ m^{**} \simeq (8.62)^{-1} $, there is a further family of self-adjoint and lower bounded Hamiltonians $ H_{0,\beta} $, $ \beta \in \mathbb{R} $, describing the system. Using a quadratic form method, we give a rigorous construction of such Hamiltonians and we show that the elements of their domains satisfy a further boundary condition, characterizing the singular behavior when the positions of all the three particles coincide., Comment: 30 pages; pdfLaTeX. Some comments and remarks added

Published

2015

2. Stability for a System of N Fermions Plus a Different Particle with Zero-Range Interactions

Author

Correggi, M., Dell'Antonio, G., Finco, D., Michelangeli, A., and Teta, A.

Subjects

Mathematical Physics, Condensed Matter - Quantum Gases

Abstract

We study the stability problem for a non-relativistic quantum system in dimension three composed by $ N \geq 2 $ identical fermions, with unit mass, interacting with a different particle, with mass $ m $, via a zero-range interaction of strength $ \alpha \in \R $. We construct the corresponding renormalised quadratic (or energy) form $ \form $ and the so-called Skornyakov-Ter-Martirosyan symmetric extension $ H_{\alpha} $, which is the natural candidate as Hamiltonian of the system. We find a value of the mass $ m^*(N) $ such that for $ m > m^*(N)$ the form $ \form $ is closed and bounded from below. As a consequence, $ \form $ defines a unique self-adjoint and bounded from below extension of $ H_{\alpha}$ and therefore the system is stable. On the other hand, we also show that the form $ \form $ is unbounded from below for $ m < m^*(2)$. In analogy with the well-known bosonic case, this suggests that the system is unstable for $ m < m^*(2)$ and the so-called Thomas effect occurs., Comment: pdfLaTex, 26 pages

Published

2012

3. A time-dependent perturbative analysis for a quantum particle in a cloud chamber

Author

Dell'Antonio, G., Figari, R., and Teta, A.

Subjects

Mathematical Physics, Quantum Physics, 81V45

Abstract

We consider a simple model of a cloud chamber consisting of a test particle (the alpha-particle) interacting with two other particles (the atoms of the vapour) subject to attractive potentials centered in $a_1, a_2 \in \mathbb{R}^3$. At time zero the alpha-particle is described by an outgoing spherical wave centered in the origin and the atoms are in their ground state. We show that, under suitable assumptions on the physical parameters of the system and up to second order in perturbation theory, the probability that both atoms are ionized is negligible unless $a_2$ lies on the line joining the origin with $a_1$. The work is a fully time-dependent version of the original analysis proposed by Mott in 1929., Comment: 23 pages

Published

2009

4. Spectral Analysis of a Two Body Problem with Zero Range Perturbation

Author

Correggi, M., Dell'Antonio, G., and Finco, D.

Subjects

Mathematical Physics, 81Q10, 81U05

Abstract

We consider a class of singular, zero-range perturbations of the Hamiltonian of a quantum system composed by a test particle and a harmonic oscillators in dimension one, two and three and we study its spectrum. In facts we give a detailed characterization of point spectrum and its asymptotic behavior with respect to the parameters entering the Hamiltonian. We also partially describe the positive spectrum and scattering properties of the Hamiltonian., Comment: Version submitted for publication, AMStex, 22 pages

Published

2007

5. Ionization for Three Dimensional Time-dependent Point Interactions

Author

Correggi, M., Dell'Antonio, G. F., Figari, R., and Mantile, A.

Subjects

Mathematical Physics, Quantum Physics

Abstract

We study the time evolution of a three dimensional quantum particle under the action of a time-dependent point interaction fixed at the origin. We assume that the ``strength'' of the interaction (\alpha(t)) is a periodic function with an arbitrary mean. Under very weak conditions on the Fourier coefficients of (\alpha(t)), we prove that there is complete ionization as (t \to \infty), starting from a bound state at time (t = 0). Moreover we prove also that, under the same conditions, all the states of the system are scattering states., Comment: Some improvements and some references added, 26 pages, LaTeX

Published

2004

6. Semiclassical analysis of constrained quantum systems

Author

Dell'Antonio, G. F. and Tenuta, L.

Subjects

Mathematical Physics, Quantum Physics

Abstract

We study the dynamics of a quantum particle in R^(n+m) constrained by a strong potential force to stay within a distance of order hbar (in suitable units) from a smooth n-dimensional submanifold M. We prove that in the semiclassical limit the evolution of the wave function is approximated in norm, up to terms of order hbar^(1/2), by the evolution of a semiclassical wave packet centred on the trajectory of the corresponding classical constrained system., Comment: 23 pages, a new section on submanifolds of arbitrary dimension and codimension added, references modified and added

Published

2003

7. Schrodinger Equation with Moving Point Interactions in Three Dimensions

Author

Dell'Antonio, G. F., Figari, R., and Teta, A.

Subjects

Mathematical Physics

Abstract

We consider the motion of a non relativistic quantum particle in R^3 subject to n point interactions which are moving on given smooth trajectories. Due to the singular character of the time-dependent interaction, the corresponding Schrodinger equation does not have solutions in a strong sense and, moreover, standard perturbation techniques cannot be used. Here we prove that, for smooth initial data, there is a unique weak solution by reducing the problem to the solution of a Volterra integral equation involving only the time variable. It is also shown that the evolution operator uniquely extends to a unitary operator in $L^{2}(R^{3})$., Comment: AMS Latex file, 15 pages

Published

1999

8. The Flux-Across-Surfaces Theorem and Zero-Energy Resonances.

Author

Dell'Antonio, G. F. and Panati, G.

Subjects

*QUANTUM theory, *PHYSICS, *QUANTUM logic, *MATHEMATICAL physics, *RESONANCE, *SCATTERING (Physics), *POTENTIAL scattering

Abstract

In this contribution we shall first introduce the Flux Across Surfaces (FAS) theorem, placing it in the general context of the Quantum Scattering Theory. Then we shall review briefly the theory of resonances in non-relativistic Quantum Mechanics and outline a proof of the FAS theorem for non-relativistic potential scattering, which covers also the case in which there is a zero energy resonance. [ABSTRACT FROM AUTHOR]

Published

2004

9. A general representation for the effective dielectric constant of a composite.

Author

Dell’Antonio, G. F. and Nesi, V.

Subjects

*DIELECTRICS, *EXCITON theory, *MATHEMATICAL physics

Abstract

In its dependence on the dielectric constants ∈[sub k] of its homogeneous components, the effective dielectric constant ∈[sup *] of a composite is a function analytic in a domain ω. Some relevant results about the effective dielectric constant are collected, including the form of ω, and then a general representation of ∈[sup *] as an analytic function is given. In this representation, the dependence on the geometry is separated from the dependence on the ∈'[sub k],'s. [ABSTRACT FROM AUTHOR]

Published

1988

10. Spectral analysis of a two body problem with zero-range perturbation

Author

Gianfausto Dell’Antonio, D. Finco, Michele Correggi, Correggi, M., Dell'Antonio, G., Finco, D., Correggi, Michele, and Dell'Antonio, G

Subjects

81Q10, 81U05, Continuous spectrum, FOS: Physical sciences, Transition of state, Mathematical Physics (math-ph), Quantum number, Solvable models in quantum mechanics, Zero-range interactions, Good quantum number, Solvable models in quantum mechanic, symbols.namesake, Quantum harmonic oscillator, Analysis, Zero-range interaction, Quantum mechanics, symbols, Supersymmetric quantum mechanics, Hamiltonian (quantum mechanics), Harmonic oscillator, Mathematical Physics, Mathematics

Abstract

We consider a class of singular, zero-range perturbations of the Hamiltonian of a quantum system composed by a test particle and a harmonic oscillators in dimension one, two and three and we study its spectrum. In facts we give a detailed characterization of point spectrum and its asymptotic behavior with respect to the parameters entering the Hamiltonian. We also partially describe the positive spectrum and scattering properties of the Hamiltonian., Comment: Version submitted for publication, AMStex, 22 pages

Published

2008

11. A Class of Hamiltonians for a Three-Particle Fermionic System at Unitarity

Author

Alessandro Teta, Gianfausto Dell’Antonio, Michele Correggi, Domenico Finco, Alessandro Michelangeli, Correggi, Michele, Dell'Antonio, Gianfausto, Finco, D., Michelangeli, A., Teta, Alessandro, Dell’Antonio, G., and Teta, A.

Subjects

ter-Martirosyan-Skornyakov boundary condition, Zero-energy resonances, FOS: Physical sciences, Zero-range interactions, symbols.namesake, Boundary value problem, Quadratic forms and self-adjoint extension theory, Quantum, Ter-Martirosyan-Skornyakov boundary conditions, Unitary gases, Settore MAT/07 - Fisica Matematica, Geometry and topology, Mathematical Physics, unitary gase, Mathematical physics, Physics, Unitarity, zero-energy resonance, Scattering length, Fermion, Mathematical Physics (math-ph), zero-range interaction, mathematical physic, Quantum Gases (cond-mat.quant-gas), Bounded function, geometry and topology, symbols, ter-Martirosyan-Skornyakov boundary conditions, unitary gases, zero-energy resonances, zero-range interactions, mathematical physics, Geometry and Topology, Hamiltonian (quantum mechanics), Condensed Matter - Quantum Gases

Abstract

We consider a quantum mechanical three-particle system made of two identical fermions of mass one and a different particle of mass $ m $, where each fermion interacts via a zero-range force with the different particle. In particular we study the unitary regime, i.e., the case of infinite two-body scattering length. The Hamiltonians describing the system are, by definition, self-adjoint extensions of the free Hamiltonian restricted on smooth functions vanishing at the two-body coincidence planes, i.e., where the positions of two interacting particles coincide. It is known that for $ m $ larger than a critical value $ m^* \simeq (13.607)^{-1} $ a self-adjoint and lower bounded Hamiltonian $ H_0 $ can be constructed, whose domain is characterized in terms of the standard point-interaction boundary condition at each coincidence plane. Here we prove that for $ m \in( m^*,m^{**}) $, where $ m^{**} \simeq (8.62)^{-1} $, there is a further family of self-adjoint and lower bounded Hamiltonians $ H_{0,\beta} $, $ \beta \in \mathbb{R} $, describing the system. Using a quadratic form method, we give a rigorous construction of such Hamiltonians and we show that the elements of their domains satisfy a further boundary condition, characterizing the singular behavior when the positions of all the three particles coincide., Comment: 30 pages; pdfLaTeX. Some comments and remarks added

Published

2015

12. Blow-up solutions for the Schrödinger equation in dimension three with a concentrated nonlinearity

Author

Gianfausto Dell’Antonio, Rodolfo Figari, Alessandro Teta, Riccardo Adami, Adami, R, Dell'Antonio, G, Figari, R, and Teta, A

Subjects

Uncertainty principle, Partial differential equation, Applied Mathematics, Mathematical analysis, Mathematics::Analysis of PDEs, Moment of inertia, Fixed point, Schrödinger equation, Nonlinear system, symbols.namesake, Schrodinger equation,Blow-up solutions, Dimension (vector space), symbols, Nonlinear Schrödinger equation, Mathematical Physics, Analysis, Mathematics

Abstract

We present some results on the blow-up phenomenon for the Schrodinger equation in dimension three with a nonlinear term supported in a fixed point. We find sufficient conditions for the blow-up exploiting the moment of inertia of the solution and the uncertainty principle. In the critical case, we discuss the additional symmetries of the equation and construct a family of explicit blow-up solutions.

Published

2004

13. STABILITY FOR A SYSTEM OF N FERMIONS PLUS A DIFFERENT PARTICLE WITH ZERO-RANGE INTERACTIONS

Author

Domenico Finco, Alessandro Teta, Alessandro Michelangeli, Gianfausto Dell’Antonio, Michele Correggi, Correggi, M., Dell'Antonio, Gianfausto, Finco, D., Michelangeli, A., Teta, Alessandro, Correggi, Michele, Dell'Antonio, G, Finco, D, Michelangeli, A, and Teta, A.

Subjects

Point interactions, self-adjoint extensions, unitary gas, Thomas effect, FOS: Physical sciences, 01 natural sciences, 010305 fluids & plasmas, point interaction, symbols.namesake, Quadratic equation, 0103 physical sciences, Quantum system, Symmetric extension, Settore MAT/07 - Fisica Matematica, Mathematical Physics, Mathematical physics, Physics, 010308 nuclear & particles physics, Statistical and Nonlinear Physics, Fermion, Mathematical Physics (math-ph), Unit mass, Quantum Gases (cond-mat.quant-gas), Bounded function, symbols, unitary ga, Condensed Matter - Quantum Gases, Hamiltonian (quantum mechanics), point interactions, thomas effect

Abstract

We study the stability problem for a non-relativistic quantum system in dimension three composed by $ N \geq 2 $ identical fermions, with unit mass, interacting with a different particle, with mass $ m $, via a zero-range interaction of strength $ \alpha \in \R $. We construct the corresponding renormalised quadratic (or energy) form $ \form $ and the so-called Skornyakov-Ter-Martirosyan symmetric extension $ H_{\alpha} $, which is the natural candidate as Hamiltonian of the system. We find a value of the mass $ m^*(N) $ such that for $ m > m^*(N)$ the form $ \form $ is closed and bounded from below. As a consequence, $ \form $ defines a unique self-adjoint and bounded from below extension of $ H_{\alpha}$ and therefore the system is stable. On the other hand, we also show that the form $ \form $ is unbounded from below for $ m < m^*(2)$. In analogy with the well-known bosonic case, this suggests that the system is unstable for $ m < m^*(2)$ and the so-called Thomas effect occurs., Comment: pdfLaTex, 26 pages

Published

2012

14. Decay of a bound state under a time-periodic perturbation: A toy case

Author

Gianfausto Dell’Antonio, Michele Correggi, Correggi, Michele, Dell'Antonio, Gianfausto, and Dell'Antonio, G.

Subjects

Physics, Physics and Astronomy (all), Statistical and Nonlinear Physics, Mathematical Physics, Quantum particle, Quantum Physics, Time periodic, Scattering, Time evolution, FOS: Physical sciences, General Physics and Astronomy, Perturbation (astronomy), Mathematical Physics (math-ph), Ionization, Bound state, Quantum Physics (quant-ph), Fourier series, Mathematical physics, Statistical and Nonlinear Physic

Abstract

We study the time evolution of a three dimensional quantum particle, initially in a bound state, under the action of a time-periodic zero range interaction with ``strength'' (\alpha(t)). Under very weak generic conditions on the Fourier coefficients of (\alpha(t)), we prove complete ionization as (t \to \infty). We prove also that, under the same conditions, all the states of the system are scattering states., Comment: LaTeX2e, 15 pages

Published

2005

15. Ionization for Three Dimensional Time-dependent Point Interactions

Author

Rodolfo Figari, Michele Correggi, Andrea Mantile, Gianfausto Dell’Antonio, Correggi, Michele, Dell'Antonio, Gianfausto, Figari, Rodolfo, Mantile, Andrea, Dell'Antonio, G, Figari, R, Mantile, A., M., Correggi, G., Dell'Antonio, and A., Mantile

Subjects

Physics, Quantum Physics, Scattering, Time evolution, FOS: Physical sciences, Statistical and Nonlinear Physics, Mathematical Physics (math-ph), Mathematical Physics, Physics and Astronomy (all), Action (physics), Periodic function, Ionization, Bound state, Mathematical Physic, Point (geometry), Quantum Physics (quant-ph), Fourier series, Mathematical physics

Abstract

We study the time evolution of a three dimensional quantum particle under the action of a time-dependent point interaction fixed at the origin. We assume that the ``strength'' of the interaction (\alpha(t)) is a periodic function with an arbitrary mean. Under very weak conditions on the Fourier coefficients of (\alpha(t)), we prove that there is complete ionization as (t \to \infty), starting from a bound state at time (t = 0). Moreover we prove also that, under the same conditions, all the states of the system are scattering states., Comment: Some improvements and some references added, 26 pages, LaTeX

Published

2004

16. Rotating Singular Perturbations of the Laplacian

Author

Michele Correggi, Gianfausto Dell’Antonio, Correggi, Michele, Dell'Antonio, G., and Dell’Antonio, Gianfausto

Subjects

Physics, Quantum Physics, Nuclear and High Energy Physics, Blade (geometry), FOS: Physical sciences, Propagator, Statistical and Nonlinear Physics, Angular velocity, Mathematical Physics (math-ph), Codimension, Unitary state, Unitary group, Limit (mathematics), Quantum Physics (quant-ph), Laplace operator, Mathematical Physics, Mathematical physics

Abstract

We study a system of a quantum particle interacting with a singular time-dependent uniformly rotating potential in 2 and 3 dimensions: in particular we consider an interaction with support on a point (rotating point interaction) and on a set of codimension 1 (rotating blade). We prove the existence of the Hamiltonians of such systems as suitable self-adjoint operators and we give an explicit expression for their unitary semigroups. Moreover we analyze the asymptotic limit of large angular velocity and we prove strong convergence of the time-dependent propagator to some one-parameter unitary group as (\omega \to \infty)., Comment: Minor changes, to appear in Ann. H. Poincare', 35 pages, LaTeX

Published

2004

17. The cauchy problem for the schroedinger equation in dimension three with concentrated nonlinearity

Author

Alessandro Teta, Rodolfo Figari, Riccardo Adami, Gianfausto Dell’Antonio, Adami, R, Dell'Antonio, G, Figari, R, and Teta, A

Subjects

Cauchy problem, Existence and uniqueness in energy space, Nonlinear Dirac Delta potentials, Nonlinear Schrödinger Equation (NLSE), Point interactions, Analysis, Mathematical Physics, Conservation law, Partial differential equation, Schrodinger equations, Applied Mathematics, Mathematical analysis, Space (mathematics), MAT/07 - FISICA MATEMATICA, Schrödinger equation, symbols.namesake, Singularity, symbols, Initial value problem, Finite set, Mathematics

Abstract

We consider the Schrödinger equation in R3 with nonlinearity concentrated in a finite set of points. We formulate the problem in the space of finite energy V, which is strictly larger than the standard H1-space due to the specific singularity exhibited by the solutions. We prove local existence and, for a repulsive or weakly attractive nonlinearity, also global existence of the solutions. © 2003 Éditions scientifiques et médicales Elsevier SAS.

Published

2003