We investigate the Berry phase of adiabatic quantum evolution in the atom-molecule conversion system that is governed by a nonlinear Schrodinger equation. We find that the Berry phase consists of two parts: the usual Berry connection term and a novel term from the nonlinearity brought forth by the atom-molecule coupling. The total geometric phase can be still viewed as the flux of the magnetic field of a monopole through the surface enclosed by a closed path in parameter space. The charge of the monopole, however, is found to be one third of the elementary charge of the usual quantized monopole. We also derive the classical Hannay angle of a geometric nature associated with the adiabatic evolution. It exactly equals minus Berry phase, indic...
We study the effects of an extra static magnetic field, coupling with one of the two entan...
As it is well known, a quantum system depending on parameters exhibits the (geometric) Berry phase w...
When a quantum system adiabatically traverses a closed cycle in the parameter space, the wave functi...
This book systematically introduces the nonlinear adiabatic evolution theory of quantum many-body sy...
We are accustomed to think the phase of single particle states does not matter. After all, the phase...
In the mean-field theory of atom-molecule systems, where bosonic atoms combine to form molecules, th...
We investigate the quantum phase transition in an ultracold atom-molecule conversion system. It is f...
In this paper, we investigate the Berry phase and Hannay's angle in the Born-Oppenheimer (BO) h...
We study the adiabatic evolution of a two-level model in the presence of an external classical elect...
This paper contains an evaluation of the Berry phases associated with the following class of nonline...
Quantum mechanical phases arising from a periodically varying Hamiltonian are considered. These phas...
doi:10.1088/0953-4075/37/23/003 In this paper, we study the implementation of the Berry approach as ...
A study is presented of Berry’s observation that when a quantum‐mechanical system is transported on ...
During the last few years, considerable interest has been focused on the phase that waves accumulate...
We present a derivation of the Berry quantum adiabatic phase using group theory. Our formalism is us...
We study the effects of an extra static magnetic field, coupling with one of the two entan...
As it is well known, a quantum system depending on parameters exhibits the (geometric) Berry phase w...
When a quantum system adiabatically traverses a closed cycle in the parameter space, the wave functi...
This book systematically introduces the nonlinear adiabatic evolution theory of quantum many-body sy...
We are accustomed to think the phase of single particle states does not matter. After all, the phase...
In the mean-field theory of atom-molecule systems, where bosonic atoms combine to form molecules, th...
We investigate the quantum phase transition in an ultracold atom-molecule conversion system. It is f...
In this paper, we investigate the Berry phase and Hannay's angle in the Born-Oppenheimer (BO) h...
We study the adiabatic evolution of a two-level model in the presence of an external classical elect...
This paper contains an evaluation of the Berry phases associated with the following class of nonline...
Quantum mechanical phases arising from a periodically varying Hamiltonian are considered. These phas...
doi:10.1088/0953-4075/37/23/003 In this paper, we study the implementation of the Berry approach as ...
A study is presented of Berry’s observation that when a quantum‐mechanical system is transported on ...
During the last few years, considerable interest has been focused on the phase that waves accumulate...
We present a derivation of the Berry quantum adiabatic phase using group theory. Our formalism is us...
We study the effects of an extra static magnetic field, coupling with one of the two entan...
As it is well known, a quantum system depending on parameters exhibits the (geometric) Berry phase w...
When a quantum system adiabatically traverses a closed cycle in the parameter space, the wave functi...