INVESTIGADORES
FRAPICCINI Ana Laura
artículos
Título:
Multiresolution schemes for time-scaled propagation of wave packets
Autor/es:
A L FRAPICCINI; ALIOU HAMIDO, FRANCISCA MOTA-FURTADO, PATRICK F. OMAHONY, AND BERNARD PIRAUX
Revista:
PHYSICAL REVIEW A - ATOMIC, MOLECULAR AND OPTICAL PHYSICS
Editorial:
AMER PHYSICAL SOC
Referencias:
Lugar: New York; Año: 2015 vol. 91 p. 43423 - 43433
ISSN:
1050-2947
Resumen:
We present a detailed analysis of the time-scaled coordinate approach and its implementation for solving the
time-dependent SchrOdinger equation describing the interaction of atoms or molecules with radiation pulses. We investigate and discuss the performance of multiresolution schemes for the treatment of the squeezing around
the origin of the bound part of the scaled wave packet. When the wave packet is expressed in terms of B-splines,
we consider two different types of breakpoint sequences: an exponential sequence with a constant density and
an initially uniform sequence with a density of points around the origin that increases with time. These two
multiresolution schemes are tested in the case of a one-dimensional Gaussian potential and for atomic hydrogen.
In the latter case, we also use Sturmian functions to describe the scaled wave packet and discuss a multiresolution
scheme which consists of working in a Sturmian basis characterized by a set of nonlinear parameters. Regarding
the continuum part of the scaled wave packet, we show explicitly that, for large times, the group velocity of
each ionized wave packet goes to zero while its dispersion is suppressed, thereby explaining why, eventually,
the scaled wave packet associated with the ejected electrons becomes stationary. Finally, we show that only the
lowest scaled bound states can be removed from the total scaled wave packet once the interaction with the pulse
has ceased.