MULTICOLOR PHOTOMETRY OF CH CYGNI IN 1978-1998статья
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Аннотация:We present the results of long-term (1978 1998) infrared and optical observations of the unique symbiotic system CH Cygni. The system’s IR brightness and color variations are generally consistent with a model in which the source is surrounded by a dust envelope with variable optical depth. There was evidence for a hot source in the CH Cyg system during the entire period from 1978 to 1998, with the exception of several hundred days in 1987 1989. Over the observation period, there was tendency for the system to gradually redden at 0.36 5 µm, accompanied by a brightness decrease at 0.36 2.2µm and a brightness increase at 3.5 and 5 µm. The “activation” of the cool sources in 1986 1989 nearly coincided with the disappearance of radiation from the hot source. The dust envelope of CH Cyg is not spherically symmetrical, and its optical depth along the line of sight is substantially lower than its emission coefficient, the mean values being τex(L)˜0.06 and τem(L)˜0.16. We confirm the presence of a 1800-to 2000-day period in both the optical and IR, both accounting for, and not accounting for, a linear trend. The spectral type of the cool star varied between M5III and M7III. The spectral type was M5III during the phase of maximum activity of the system’s hot source, while the spectral type was M7III when the star’s optical radiation was almost completely absent. The luminosity of the cool giant varied from (6300 9100)L sun; its radius varied by approximately 30%. The ratio of the luminosities of the dust envelope and the cool giant varied from 0.08 to 0.5; i.e., up to 50% of the cool star’s radiation could be absorbed in the envelope. The temperature of dust particles in the emitting envelope varied from 550 to 750 K; the radius of the envelope varied by more than a factor of 2. The expansion of the emitting dust envelope observed in 1979 1988 accelerated: its initial velocity (in 1979) was ˜8 km/s, while the maximum velocity (in 1987 1989) was ˜180 km/s. Beginning in 1988, the radiation radius of the dust envelope began to decrease, first at ˜45 km/s and then (in 1996 1998) at ˜3 km/s. From 1979 until 1996, the mass of the emitting dust envelope increased by approximately a factor of 27 (the masses in 1979 and 1988 were ˜1.4×10-7 M sun and ˜3.8×10-6 M sun, respectively), after which (by 1999) it decreased by nearly a factor of 7. The mass-loss rate of the cool star increased in 1979 1989, reaching ˜3.5×10-6 ˜3.5×10-6 M sun/yr in 1988. Subsequently (up to the summer of 1999), the envelope itself began to lose mass at a rate exceeding that of the cool star. The largest input of matter to the envelope occurred after the phase of optical activity in 1978 1985. If the envelope’s gas-to-dust ratio is ˜100, the mass of matter ejected in 1988 was ˜4×10-4 M sun.