In this article, the diffusion Monte Carlo (DMC) method is applied to the study of the quantum states of a hydrogen atom confined into a cylindrical potential well. We present an independent reproduction of previous studies based on different methods, in particular the energy eigenvalues for ground and selected excited states and the polarizability of the ground state, both for finite and infinite cylinders. The static field ionization of ground and excited states of the confined atom is discussed, including the determination of the potential energy surface and equilibrium position of the proton. This study provides a further demonstration of the versatility of the DMC method for this and analogous problems.The quantum diffusion Monte Carlo method is applied to a hydrogen atom confined in a cylindrical potential well. Ionization process is studied for ground and excited states. The potential energy surfaces of the nucleus feature interesting characteristics as the electric filed increases. image
Quantum states and static field ionization of a cylindrical confined hydrogen atom: A diffusion Monte Carlo study
Gaia Micca Longo;Savino Longo
2024-01-01
Abstract
In this article, the diffusion Monte Carlo (DMC) method is applied to the study of the quantum states of a hydrogen atom confined into a cylindrical potential well. We present an independent reproduction of previous studies based on different methods, in particular the energy eigenvalues for ground and selected excited states and the polarizability of the ground state, both for finite and infinite cylinders. The static field ionization of ground and excited states of the confined atom is discussed, including the determination of the potential energy surface and equilibrium position of the proton. This study provides a further demonstration of the versatility of the DMC method for this and analogous problems.The quantum diffusion Monte Carlo method is applied to a hydrogen atom confined in a cylindrical potential well. Ionization process is studied for ground and excited states. The potential energy surfaces of the nucleus feature interesting characteristics as the electric filed increases. imageI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.