Add to ORKGWe employ potential energy surfaces (PES) from ab initio quantum chemistry methods to describe the interaction of the CN^{-}({1}^Σ) molecule, one of the small anions often studied at low temperatures, with other possible gases which can be employed as buffer in cold ion traps: the He and Ar atoms and the p-H-{2} molecule. These PESs are used to calculate from quantum multichannel dynamics the corresponding state-changing rate constants between the populated rotational states of the anion, the latter being in its electronic and vibrational ground states. The different cross sections for the collision-driven quenching and excitation processes at low temperatures are compared and further used to model CN^{-} cooling (de-excitation) efficiency ...
This Dissertation details the development of state-of-the-art hybrid atom-ion trapping architecture ...
A newly computed potential energy surface, which describes the forces at play between the OH−(X1Σ+) ...
This dissertation reports sympathetic cooling of the molecular hydroxyl anion (OH– ) via collisions ...
We present in this paper a detailed theoretical and computational analysis of the quantum inelastic ...
The scattering cross-sections and corresponding rate coefficients for rotationally inelastic collisi...
Using accurate ab initio calculations of the interaction forces, we employ a quantum mechanical desc...
[EN]We present quantum scattering calculations for rotational state-changing cross sections and rate...
We present an extensive range of quantum calculations for the state-changing rotational dynamics inv...
In recent years there has been much progress in the field of cold and ultracold molecular physics an...
[EN]Multichannel scattering calculations are presented for the low-energy collisions of the OH+ cati...
We discuss in detail the quantum rotationally inelastic dynamics of an important anion often discuss...
Using helium buffer gas cooling, we have prepared dense samples of ground-state molecular calcium mo...
[EN]Using the ab initio computed potential energy surface for the electronic interaction of the MgH+...
A newly calculated ab initio potential energy surface is used to compute collision-driven state-chan...
We present a rigorous theoretical study of low-temperature collisions of polyatomic molecular radica...
This Dissertation details the development of state-of-the-art hybrid atom-ion trapping architecture ...
A newly computed potential energy surface, which describes the forces at play between the OH−(X1Σ+) ...
This dissertation reports sympathetic cooling of the molecular hydroxyl anion (OH– ) via collisions ...
We present in this paper a detailed theoretical and computational analysis of the quantum inelastic ...
The scattering cross-sections and corresponding rate coefficients for rotationally inelastic collisi...
Using accurate ab initio calculations of the interaction forces, we employ a quantum mechanical desc...
[EN]We present quantum scattering calculations for rotational state-changing cross sections and rate...
We present an extensive range of quantum calculations for the state-changing rotational dynamics inv...
In recent years there has been much progress in the field of cold and ultracold molecular physics an...
[EN]Multichannel scattering calculations are presented for the low-energy collisions of the OH+ cati...
We discuss in detail the quantum rotationally inelastic dynamics of an important anion often discuss...
Using helium buffer gas cooling, we have prepared dense samples of ground-state molecular calcium mo...
[EN]Using the ab initio computed potential energy surface for the electronic interaction of the MgH+...
A newly calculated ab initio potential energy surface is used to compute collision-driven state-chan...
We present a rigorous theoretical study of low-temperature collisions of polyatomic molecular radica...
This Dissertation details the development of state-of-the-art hybrid atom-ion trapping architecture ...
A newly computed potential energy surface, which describes the forces at play between the OH−(X1Σ+) ...
This dissertation reports sympathetic cooling of the molecular hydroxyl anion (OH– ) via collisions ...