New ATel about the very peculier behaviour of this dwarf nova partially based on spectra obtained by David Boyd and Woody Sims during rebrightnings
ATEL #13122 ATEL #13122
Title: The disappearance and reappearance of optical emission lines
and the drop in a Swift/XRT count rate during the recent rebrightening
of TCP J21040470+4631129
Author: V. Neustroev (U. Oulu), D. Boyd, F. Sims (ARAS), K. L. Page
(U. Leicester), T. Tordai (MCSE), S. M. Brincat, C. Galdies, G. Sjoberg
(AAVSO), S. Zharikov (UNAM), J. P. Osborne (U. Leicester), N. P. M.
Kuin (UCL-MSSL), T. R. Marsh, B. T. Gaensicke (U. Warwick), C. Knigge
(U. Southampton)
Queries:
vitaly@neustroev.net
Posted: 23 Sep 2019; 17:54 UT
Subjects:Optical, X-ray, Binary, Cataclysmic Variable, Transient,
Variables
We report the results of our continuing optical and X-ray monitoring of
the bright WZ Sge-type dwarf nova TCP J21040470+4631129 (hereafter TCP2104)
discovered on July 12, 2019 (for previous reports, see ATel #12947, #13009).
Our optical photometric observations are mostly performed using 30-cm class
telescopes, while spectroscopic data are obtained with the 2.1-m telescope
at the OAN-SPM, the 2.5-m Isaac Newton Telescope on La Palma, and other
smaller telescopes.
The observations show that the object is exhibiting remarkable, very unusual
behaviour. After the end of the plateau stage on August 3, TCP2104 experienced
2 short rebrightenings on August 8-10 and 14-16, after which the object
underwent the second superoutburst with a relatively short plateau stage
of about 9 days (from August 25 to September 3). After the second plateau
ended, TCP2104 showed another short rebrightening on September 15-17. We
note that the fading after this rebrightening has again decelerated suggesting
that another rebrightening is possible. We also point out that superhump
modulations which were observed from the very beginning of the superoutburst
have never completely disappeared (see also ATel #12947 and #13009), and
they are still present in a light curve after the end of the most recent
rebrightening (their amplitude is about 0.1 mag). Using the observations
obtained between September 18-21, we measured a period of modulations to
be P=77.15+/-0.3 min, which is consistent with the orbital period Porb=77.07+/-0.02
min (ATel #13009).
TCP2104 is currently at the level of V~14.7 mag, that is still about 1.3
mag brighter than just before the discovery (according to ASAS-SN). However,
the Pan-STARRS1 (PS1) catalog lists much lower fluxes; at a mean epoch
of 2014 August 23 the mean V magnitude was measured to be ~18.1 mag (converted
from PS1 magnitudes). We note, however, the PS1 detection tables indicate
that between 2010 and 2014 TCP2104 has gradually brightened by ~0.5 mag.
Our extensive optical spectroscopic monitoring showed a notable difference
between the spectra obtained during the first and the second plateau stages.
During the second plateau, the flux in the emission lines was much reduced,
and especially higher-order Balmer lines were significantly weakened. But
the most dramatic spectral changes were observed during the recent rebrightening.
The spectrum obtained on September 15.84, just before the rebrightening
maximum, shows only Balmer absorption lines, while all the emission lines
completely disappeared. However, another spectrum obtained 9 hours later
(September 16.23) shows very strong emission lines again.
We also continued monitoring TCP2104 with Swift. The observations obtained
between rebrightenings showed a very stable XRT count rate at the level
of 0.11+/-0.02 cts/s. However, during rebrightenings it has dropped by
about 10 times.
We thank the Swift PI, Brad Cenko, for approving the observations, and
the Swift planning and operations teams for their ongoing support.
Light curves and spectra:
https://vitaly.neustroev.net/researchfiles/tcp2104/