Bibcode
Jeffery, C. S.; Kurtz, D.; Shibahashi, H.; Starling, R. L. C.; Elkin, V.; Montañés-Rodríguez, P.; McCormac, J.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society, Volume 447, Issue 3, p.2836-2851
Advertised on:
3
2015
Citations
12
Refereed citations
10
Description
High-resolution spectroscopy with the Subaru High Dispersion
Spectrograph, and Swift ultraviolet photometry are presented for the
pulsating extreme helium star V652 Her. Swift provides the best relative
ultraviolet photometry obtained to date, but shows no direct evidence
for a shock at ultraviolet or X-ray wavelengths. Subaru has provided
high spectral and high temporal resolution spectroscopy over six
pulsation cycles (and eight radius minima). These data have enabled a
line-by-line analysis of the entire pulsation cycle and provided a
description of the pulsating photosphere as a function of optical depth.
They show that the photosphere is compressed radially by a factor of at
least 2 at minimum radius, that the phase of radius minimum is a
function of optical depth and the pulse speed through the photosphere is
between 141 and 239 km s-1 (depending how measured) and at
least 10 times the local sound speed. The strong acceleration at minimum
radius is demonstrated in individual line profiles; those formed deepest
in the photosphere show a jump discontinuity of over 70 km
s-1 on a time-scale of 150 s. The pulse speed and line
profile jumps imply a shock is present at minimum radius. These
empirical results provide input for hydrodynamical modelling of the
pulsation and hydrodynamical plus radiative transfer modelling of the
dynamical spectra.