An analysis of photon emission by He+ interacting with intense, shea laser
pulses is presented. Employing one- and two-dimensional model atomic system
s, the time-dependent Schrodinger equation is solved numerically for few-cy
cle laser pulses with wavelength 800 nm and a peak intensity of 5.6 x 10(15
) W cm(-2). The low ionization probability of positive ions leads to photon
emission spectra that display prominent plateaus whose height and cut-off
energy depend strongly on the phase and duration of the laser pulse. These
features can be explained using the semiclassical three-step model of harmo
nic generation. Ions also allow the investigation of effects due to the mag
netic field component of the laser pulse. For the laser parameters used, we
find that photon emission polarized along the propagation direction is thr
ee to four orders of magnitude weaker than photon emission polarized parall
el to the polarization direction of the incident wave.