English

\alpha-Decay in Ultra-Intense Laser Fields

Nuclear Theory 2013-07-26 v1 Atomic Physics Quantum Physics

Abstract

We investigate the \alpha-decay of a spherical nucleus under the influence of an ultra-intense laser field for the case when the radius vector joining the center-of-masses of the \alpha-particle and the daughter is aligned with the direction of the external field. The time-independent part of the \alpha-daughter interaction is taken from elastic scattering compilations whereas the time-varying part describes the interaction between the decaying system with the laser field. The time-dependent Schr\"odinger equation is solved numerically by appealing to a modified scheme of the Crank-Nicolson type where an additional first-order time derivative appears compared to the field-free case. The tunneling probability of the \alpha-cluster, and derived quantities (decay rate, total flux) is determined for various laser intensities and frequencies for either continous waves or few-cycle pulses of envelope function F(t)=1. We show that in the latter case pulse sequences containing an odd number of half-cycles determine an enhancement of the tunneling probability compared to the field-free case and the continuous wave case. The present study is carried out taking as example the alpha decaying nucleus 106^{106}Te.

Keywords

Cite

@article{arxiv.1307.1641,
  title  = {\alpha-Decay in Ultra-Intense Laser Fields},
  author = {Serban Misicu and Margarit Rizea},
  journal= {arXiv preprint arXiv:1307.1641},
  year   = {2013}
}

Comments

19 pages, 5 figures, in press

R2 v1 2026-06-22T00:46:16.060Z