Real-time first principle simulations are presented of the D2 Coulomb explosion dynamics detonated by exposure to very intense few-cycle laser pulse. Three approximate functionals within the time-dependent density functional theory (TDDFT) functionals are examined for describing the electron dynamics, including time-dependent Hartree-Fock theory. Nuclei are treated classically with quantum corrections. The calculated results are sensitive to the underlying electronic structure theory, showing too narrow kinetic energy distribution peaked at too high kinetic energy when compared with recent experimental results (Phys. ReV. Lett. 2003, 91, 093002). Experiment also shows a low energy peak which is not seen in the present calculation. We conclu...
International audienceA faster and more efficient quantum mechanical simulation method for applicati...
In order to properly describe the dynamics of a many-particle system in strong, timedependent fields...
International audienceWe summarize in this article the recent progress made in our laboratories in t...
Time Dependent Density Functional Theory is used to probe the structure of matter. Coulomb explosio...
We present numerical simulations of femtosecond laser induced dynamics of some selected simple molec...
We review our recent developments in the ab initio simulation of excited-state dynamics within the f...
We review our recent developments in the ab initio simulation of excited-state dynamics within the f...
International audienceThe early stages of the Coulomb explosion of a doubly ionized water molecule i...
WOS:000304203500015International audienceThe classic density-functional theory (DFT) formalism intro...
Abstract. Time-dependent density functional theory (TDDFT) is a general and robust method allowing t...
Energy transfer processes from a high-intensity ultrashort laser pulse to electrons in simple dielec...
Time-dependent density functional theory in its current adiabatic implementations exhibits three str...
Although time-dependent density functional theory (TDDFT) has become the tool of choice for real-tim...
Ionization in the condensed phase and molecular clusters leads to a complicated chain of processes w...
The Density-Functional Theory (DFT) is a reformulation of the quantum study of a correlated N-body s...
International audienceA faster and more efficient quantum mechanical simulation method for applicati...
In order to properly describe the dynamics of a many-particle system in strong, timedependent fields...
International audienceWe summarize in this article the recent progress made in our laboratories in t...
Time Dependent Density Functional Theory is used to probe the structure of matter. Coulomb explosio...
We present numerical simulations of femtosecond laser induced dynamics of some selected simple molec...
We review our recent developments in the ab initio simulation of excited-state dynamics within the f...
We review our recent developments in the ab initio simulation of excited-state dynamics within the f...
International audienceThe early stages of the Coulomb explosion of a doubly ionized water molecule i...
WOS:000304203500015International audienceThe classic density-functional theory (DFT) formalism intro...
Abstract. Time-dependent density functional theory (TDDFT) is a general and robust method allowing t...
Energy transfer processes from a high-intensity ultrashort laser pulse to electrons in simple dielec...
Time-dependent density functional theory in its current adiabatic implementations exhibits three str...
Although time-dependent density functional theory (TDDFT) has become the tool of choice for real-tim...
Ionization in the condensed phase and molecular clusters leads to a complicated chain of processes w...
The Density-Functional Theory (DFT) is a reformulation of the quantum study of a correlated N-body s...
International audienceA faster and more efficient quantum mechanical simulation method for applicati...
In order to properly describe the dynamics of a many-particle system in strong, timedependent fields...
International audienceWe summarize in this article the recent progress made in our laboratories in t...