Add to ORKGThe close spacing of electron energy levels at the Fermi surface of a metal allows for a ready exchange of energy between ionic and electronic subsystems. In molecular dynamics (MD) simulations of fast moving ions, the heat transfer to electrons is sometimes modelled as a frictional force that slows the ions. Quantum mechanical simulations lay bare these processes and reveal how best to characterise electronic friction and heating for direct incorporation into MD. In this paper, we discuss the limitations of the description of electronic damping as a viscous force, the validity of the two-temperature model, and how the non-adiabatic movement of electrons between bonds leads to directional stopping
Many physical properties of metals can be understood in terms of the free electron model, as proven ...
Low-lying electronic excitations in metals, so-called hot electrons, efficiently mediate molecule-me...
International audienceUnderstanding the generation and evolution of defects induced in matter by ion...
By simulating the passage of heavy ions along open channels in a model crystalline metal using semi-...
Trabajo presentado en el 23rd International Workshop on Inelastic Ion-Surface Collisions IISC (IISC-...
doi:10.1088/1367-2630/11/1/013004 Abstract. Classical molecular dynamics (MD) is a frequently used t...
AbstractIn this paper we briefly discuss the problem of simulating non-adiabatic processes in system...
The coupled electronic-nuclear dynamics at molecule-metal interfaces are fundamental processes that ...
Fundamental advances in experimental nuclear physics will require ion beams with orders of magnitude...
Molecular dynamics near metal surfaces underlie a number of fields in chemistry, including chemisorp...
The design of metals and alloys resistant to radiation damage involves the physics of electronic exc...
The relaxation dynamics of hot H, N, and N2 on Pd(100), Ag(111), and Fe(110), respectively, is studi...
Nonadiabatic effects that arise from the concerted motion of electrons and atoms at comparable energ...
In this thesis we use a time-dependent tight-binding model metal evolving under semiclassical Ehrenf...
Resumen del trabajo presentado al CECAM workshop “Challenges in reaction dynamics of gas-surface int...
Many physical properties of metals can be understood in terms of the free electron model, as proven ...
Low-lying electronic excitations in metals, so-called hot electrons, efficiently mediate molecule-me...
International audienceUnderstanding the generation and evolution of defects induced in matter by ion...
By simulating the passage of heavy ions along open channels in a model crystalline metal using semi-...
Trabajo presentado en el 23rd International Workshop on Inelastic Ion-Surface Collisions IISC (IISC-...
doi:10.1088/1367-2630/11/1/013004 Abstract. Classical molecular dynamics (MD) is a frequently used t...
AbstractIn this paper we briefly discuss the problem of simulating non-adiabatic processes in system...
The coupled electronic-nuclear dynamics at molecule-metal interfaces are fundamental processes that ...
Fundamental advances in experimental nuclear physics will require ion beams with orders of magnitude...
Molecular dynamics near metal surfaces underlie a number of fields in chemistry, including chemisorp...
The design of metals and alloys resistant to radiation damage involves the physics of electronic exc...
The relaxation dynamics of hot H, N, and N2 on Pd(100), Ag(111), and Fe(110), respectively, is studi...
Nonadiabatic effects that arise from the concerted motion of electrons and atoms at comparable energ...
In this thesis we use a time-dependent tight-binding model metal evolving under semiclassical Ehrenf...
Resumen del trabajo presentado al CECAM workshop “Challenges in reaction dynamics of gas-surface int...
Many physical properties of metals can be understood in terms of the free electron model, as proven ...
Low-lying electronic excitations in metals, so-called hot electrons, efficiently mediate molecule-me...
International audienceUnderstanding the generation and evolution of defects induced in matter by ion...