Bibcode
Rodríguez-Gil, P.; Gänsicke, B. T.; Hagen, H.-J.; Araujo-Betancor, S.; Aungwerojwit, A.; Allende Prieto, C.; Boyd, D.; Casares, J.; Engels, D.; Giannakis, O.; Harlaftis, E. T.; Kube, J.; Lehto, H.; Martínez-Pais, I. G.; Schwarz, R.; Skidmore, W.; Staude, A.; Torres, M. A. P.
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society, Volume 377, Issue 4, pp. 1747-1762.
Fecha de publicación:
6
2007
Número de citas
87
Número de citas referidas
77
Descripción
We present time-series optical photometry of five new cataclysmic
variables (CVs) identified by the Hamburg Quasar Survey (HQS). The deep
eclipses observed in HS 0129+2933 (= TT Tri), HS 0220+0603 and HS
0455+8315 provided very accurate orbital periods of 3.35129827(65),
3.58098501(34) and 3.56937674(26) h, respectively. HS 0805+3822 shows
grazing eclipses and has a likely orbital period of 3.2169(2) h.
Time-resolved optical spectroscopy of the new CVs (with the exception of
HS 0805+3822) is also presented. Radial velocity studies of the Balmer
emission lines provided an orbital period of 3.55 h for HS 1813+6122,
which allowed us to identify the observed photometric signal at 3.39 h
as a negative superhump wave. The spectroscopic behaviour exhibited by
all the systems clearly identifies them as new SW Sextantis (SW Sex)
stars. HS 0220+0603 shows unusual NII and SiII emission lines suggesting
that the donor star may have experienced nuclear evolution via the CNO
cycle.
These five new additions to the class increase the number of known SW
Sex stars to 35. Almost 40 per cent of the total SW Sex population do
not show eclipses, invalidating the requirement of eclipses as a
defining characteristic of the class and the models based on a high
orbital inclination geometry alone. On the other hand, as more SW Sex
stars are identified, the predominance of orbital periods in the narrow
3-4.5 h range is becoming more pronounced. In fact, almost half the CVs
which populate the 3-4.5 h period interval are definite members of the
class. The dominance of SW Sex stars is even stronger in the 2-3 h
period gap, where they make up 55 per cent of all known gap CVs. These
statistics are confirmed by our results from the HQS CVs. Remarkably, 54
per cent of the Hamburg nova-like variables have been identified as SW
Sex stars with orbital periods in the 3-4.5 h range. The observation of
this pile-up of systems close to the upper boundary of the period gap is
difficult to reconcile with the standard theory of CV evolution, as the
SW Sex stars are believed to have the highest mass-transfer rates among
CVs.
Finally, we review the full range of common properties that the SW Sex
stars exhibit. Only a comprehensive study of this rich phenomenology
will prompt to a full understanding of the phenomenon and its impact on
the evolution of CVs and the accretion processes in compact binaries in
general.