Add to ORKGDynamical properties associated with the electron motion at sufaces are discussed by solving the time-dependent Schrodinger equation based on the quantum fluid dynamics(QFD) scheme. The classical description for the quantum system provides us clear physical picture such as the eletron tunneling, migration, effects of external field. Two dimensional model studies of the electron current are presented at W(001) surface
We describe a quantum electromechanical system comprising a single quantum dot harmonically bound be...
We consider computational methods for simulating the dynamics of molecular systems governed by the t...
Numerical methods for calculating strong-eld, nonperturbative electron dynamics are investigated. Tw...
Quantum molecular dynamics (QMD) simulations pro-vide the real-time dynamics of electrons and ions t...
We give a quantum description of a Quantum Electro-Mechanical System(QEMS) comprising a single quant...
We give a quantum description of a Quantum Electro-Mechanical System(QEMS) comprising a single quant...
Abstract. The classical hydrodynamic equations can be extended to include quantum effects by incorpo...
The transient and stationary characteristics of a one-dimensional quantum hydrodynamic model are com...
Graduation date: 2016Time-dependent electronic transport is increasingly important to the state-of-t...
A quantum fluid-dynamic (QFD) control formulation is presented for optimally manipulating atomic and...
In this paper, we present a highly accurate and effective theoretical model to study electron transp...
A quantum fluid density functional theory has been developed through an amalgamation of the quantum ...
11 pagesInternational audienceA quantum hydrodynamic (fluid) model, derived from the Wigner-Poisson ...
In presence of external electric and magnetic fields, the Schrödinger equation for many-electro...
Difficulties in simulating systems composed of classical and quantum particles lie in the treatment ...
We describe a quantum electromechanical system comprising a single quantum dot harmonically bound be...
We consider computational methods for simulating the dynamics of molecular systems governed by the t...
Numerical methods for calculating strong-eld, nonperturbative electron dynamics are investigated. Tw...
Quantum molecular dynamics (QMD) simulations pro-vide the real-time dynamics of electrons and ions t...
We give a quantum description of a Quantum Electro-Mechanical System(QEMS) comprising a single quant...
We give a quantum description of a Quantum Electro-Mechanical System(QEMS) comprising a single quant...
Abstract. The classical hydrodynamic equations can be extended to include quantum effects by incorpo...
The transient and stationary characteristics of a one-dimensional quantum hydrodynamic model are com...
Graduation date: 2016Time-dependent electronic transport is increasingly important to the state-of-t...
A quantum fluid-dynamic (QFD) control formulation is presented for optimally manipulating atomic and...
In this paper, we present a highly accurate and effective theoretical model to study electron transp...
A quantum fluid density functional theory has been developed through an amalgamation of the quantum ...
11 pagesInternational audienceA quantum hydrodynamic (fluid) model, derived from the Wigner-Poisson ...
In presence of external electric and magnetic fields, the Schrödinger equation for many-electro...
Difficulties in simulating systems composed of classical and quantum particles lie in the treatment ...
We describe a quantum electromechanical system comprising a single quantum dot harmonically bound be...
We consider computational methods for simulating the dynamics of molecular systems governed by the t...
Numerical methods for calculating strong-eld, nonperturbative electron dynamics are investigated. Tw...