Mt. Richards, CIRCUMSTELLAR MATERIAL IN ALGOL - A STUDY OF THE BALMER LINE-PROFILES, The Astrophysical journal. Supplement series, 86(1), 1993, pp. 255-291
The kinematics and spatial distribution of the circumstellar H II stru
ctures in Algol (beta Persei) have been found from a study of the Balm
er Halpha, Hbeta, and Hgamma line profiles. The main focus of the stud
y was the Halpha line profile which contained contributions from the c
ircumstellar material. Since these contributions were weak, they were
enhanced by removing the composite theoretical photospheric line profi
les of the three stars in Algol from the observed line profile. These
residual or difference profiles were studied to provide a model for th
e circumstellar gas in Algol. The 98 IIIa-F (4700-6700 angstrom) photo
graphic spectra which were used in the analysis were obtained over 15
months during 1976 and 1977 and cover the entire orbit of the Algol bi
nary, with a resolution of approximately 0.02 in phase. This single da
ta set is more comprehensive than any other spectroscopic observations
of beta Persei in the literature. Furthermore, these full-orbit obser
vations constitute a new direction in the study of Algol-type binaries
because they can be used to provide two-dimensional information about
the circumstellar material. An additional 94 IIa-O and IIIa-J (3900-4
900 angstrom) photographic spectra were obtained in 1972 and 1985 for
the purpose of refining the stellar properties and to check the proced
ure which was used to calculate the composite theoretical line profile
s. The orbital parameters and stellar properties assumed for the calcu
lation of the composite theoretical photospheric spectrum of the stars
were either obtained from the literature or from extensive analyses o
f multicolor light curves (reported earlier), IIa-O and IIIa-J spectra
, and Hgamma line profiles of Algol. The spectral analysis performed i
n this work showed that the temperature of Algol A is 13,000 +/- 500 K
; Algol C is a marginal Am star with both hydrogen- and metallic-line
spectral types of F1 +/- 1, and an effective temperature of 7000 +/- 2
00 K; and the circumstellar material has a significant effect on the H
gamma line profile and changed its character between 1972 and 1985. Th
e Halpha difference spectra contain emission and absorption components
which arise primarily from a transient, high-density (N(e) greater th
an or similar to 10(11) cm-3), low-mass (M approximately 10(-13) M.),
localized H II region. In the orbital plane of the binary, this region
is located above the photosphere of the primary in the space between
the two stars, roughly between the line of centers of the binary and t
he expected position of the gas stream. This region also extends beyon
d the orbital plane to a height comparable to the radius of the primar
y. The localized region can be understood in terms of the interaction
between the gas stream from the secondary and material which circled t
he primary. This region is observationally indistinguishable from a ga
s stream except that gas streams are unlikely to be found high above t
he orbital plane. In addition, there is a low-density transient asymme
tric rotating accretion disk which contains a high-velocity region.