Descripción
|
|
---|---|
In this work, we present a numerical method for describing a hybrid system of an ultracold neutral atom and a single ion confined in spatially separated three dimensional trapping potentials. The interaction between the neutral atom and the ion is modeled using realistic Born-Oppenheimer potential curves obtained from ab initio quantum chemistry calculations. An application of the approach to the hybrid atom-ion system of 7Li2+ isotope reveals the trap-induced resonances that manifest as avoided crossings between the molecular bound states and the unbound trap states as a function of the separation between the two traps. | |
Internacional
|
Si |
Nombre congreso
|
Cold and Controlled Molecules and Ions (CCMI 2018) [http://www.ccmi2018.com/] |
Tipo de participación
|
970 |
Lugar del congreso
|
Athens, GA (USA) |
Revisores
|
Si |
ISBN o ISSN
|
CDP08UPM |
DOI
|
|
Fecha inicio congreso
|
25/03/2018 |
Fecha fin congreso
|
29/03/2018 |
Desde la página
|
54 |
Hasta la página
|
54 |
Título de las actas
|
2018 Conference on Cold and Controlled Molecules and Ions (CCMI) [http://www.ccmi2018.com/CCMI_BoA(1).pdf] |