Electronic Telegram No. 2204
Central Bureau for Astronomical Telegrams
INTERNATIONAL ASTRONOMICAL UNION
CBAT Director:  Daniel W. E. Green; Room 209; Dept. of Earth and Planetary
 Sciences; Harvard University; 20 Oxford St.; Cambridge, MA  02138; U.S.A.
e-mail:  cbat@iau.org; cbatiau@eps.harvard.edu
URL http://www.cfa.harvard.edu/iau/cbat.html


V407 CYGNI
    Further to CBET 2199, H. Sato, National Astronomical Observatory of
Japan, writes that he received a report of the outburst of this variable
as a possible nova of mag 7.4 by Kazuo Sakaniwa (Higashichikumagun, Nagano
prefecture) on an image taken around Mar 11.80 UT using a Canon digital
camera (+ 70-mm f/3.2 camera lens), adding that nothing appeared at this
position on Sakaniwa's survey frames taken on Jan. 10 (limiting mag 10.5),
24 (limiting mag 10.4), Feb. 8 (limiting mag 10.8), and 23 (limiting mag
10.6).  Also, K. Ayani, Bisei Astronomical Observatory, reported an apparent
independent discovery of the brightning of V407 Cyg by Akihiko Tago (Tsuyama,
Okayama-ken, Japan) at 7th magnitude on two frames taken on Mar. 11.815 with
a Canon EOS 5D camera (+ 105-mm camera lens).
    K. Nishiyama, Kurume, Fukuoka-ken, Japan; and F. Kabashima, Miyaki-cho,
Saga-ken, Japan, report that two 5-s unfiltered CCD frames (limiting magnitude
16.9) taken around Mar. 10.813 UT using a Meade 200R 0.40-m f/9.8 reflector
(+ SBIG STL1001E camera) yield mag 6.8 and the following precise position for
V407 Cyg:  R.A. = 21h02m09s.83, Decl. = +45o46'33".0 (equinox 2000.0).  E.
Guido (Castellammare di Stabia, Italy) writes that he and G. Sostero also
obtained images remotely with a 0.25-m reflector on Mar. 12.45, yielding
position end figures 09s.82, 33".0 (reference catalogue USNO-B1) and
magnitudes V = 8.2 and R_c = 7.2.  Visual magnitude estimate of V407 Cyg by
P. Schmeer, Bischmisheim, Germany:  Mar. 12.184 UT, 7.9.
    U. Munari and A. Siviero, Istituto Nazionale di Astrofisica,
Astronomical Observatory of Padova; and P. Valisa and S. Dallaporta, "Asiago
Novae and Symbiotic Stars" (ANS) collaboration, report that they obtained
absolutely fluxed, low-resolution spectra of V407 Cyg on Mar. 13.09 UT with
the Asiago 1.22-m telescope (range 325-753 nm; 0.23 nm/pixel) and the Varese
0.6-m telescope (380-840 nm; 0.21 nm/pixel), and echelle spectroscopy (range
395-865; resolving power 10000) with the latter instrument also.  The
spectral appearance is a highly peculiar one.  The spectrum is completely
different from those ever recorded for this object and other symbiotic Mira
variables in outburst.  The absorption spectrum of the Mira star is
completely overwhelmed by the blue continuum from the outbursting component,
with Balmer continuum in emission.  The profiles of the emission lines
belong to two distinct groups, the first originating from the ionized slow
wind of the Mira, the other from the fast expanding ejecta of the nova
outburst, a scenario reminiscent of the symbiotic recurrent nova RS Oph.
The first emission-line group is made by sharp (FWHM 60 km/s) and weaker
lines, similar to those usually visible in quiescence.  The Balmer emission
lines display the classical central absorption usually observed in symbiotic
stars -- and in V407 Cyg, in particular.  He I lines are present, too, in
this group without the central reversal.  In addition, the outburst brought
a huge forest of sharp Fe II lines (not normally present in quiescence) and
the disappearance of [O III] and [N II] nebular lines.  The second group of
lines is characterized by a wide Gaussian profile (FWHM 2300 km/s) and is
present in the Balmer series and He I lines.  Thus, the Balmer and He I
lines display simultaneously both type of profiles:  the broad component,
with on top the sharp one.  The integrated flux of the H_beta broad
component is ten times that of the sharp one, and three times for H_alpha.
The broad component looks closely similar to the spectrum of He/N classical
novae.  The authors believe that the white dwarf companion to the Mira
variable is experiencing an outburst similar to that of classical novae,
and its ejecta are moving in the circumstellar environment already filled
by the ionized wind of the Mira, with associated shocks and presumably hard
x-ray emission.  The typical outbursts of known symbiotic binaries, and
symbiotic Miras in particular, are characterized by a very slow rise
(months) and no significant mass ejection, with the notable exceptions of
RS Oph and T CrB.  Perhaps V407 Cyg will join them in an special class of
objects; if so, we might anticipate a very rapid evolution and the
necessity of a fast observational response.  On Mar. 13.1 UT, the authors
measured V = 8.671, B-V = +0.988, V-R_c = +1.582, V-I_c = 2.635.


NOTE: These 'Central Bureau Electronic Telegrams' are sometimes
     superseded by text appearing later in the printed IAU Circulars.

                        (C) Copyright 2010 CBAT
2010 March 13                    (CBET 2204)              Daniel W. E. Green