Type of Document Dissertation Author Boboltz, David Allen Jr. Author's Email Address dboboltz@hertz.haystack.edu URN etd-61797-104237 Title The Structure and Polarization Properties of the SiO Masers in the Extended Atmosphere of R Aquarii Degree Doctor of Philosophy Department Physics Advisory Committee
Advisor Name Title John H. Simonetti Committee Chair Brian K. Dennison Committee Member John J. Broderickv Committee Member Lay Nam Chang Committee Member Philip J. Diamond Committee Member Keywords
- masers
- symbiotic binaries
- circumstellar matter
- R Aquarii
Date of Defense 1997-06-13 Availability unrestricted Abstract Silicon monoxide (SiO) maser emission has been observedtowards many late-type stars. The conditions necessary
for the formation of SiO masers dictate that they be
produced in a region which is inside the silicate dust
formation point close to the surface of the star. Very
Long Baseline Interferometry (VLBI) has shown that these
masers do indeed lie close to the stellar surface at a
distance of a few stellar radii. This extended atmosphere
is a complex region dominated by stellar pulsations and
permeated by circumstellar shocks.
This dissertation presents the results of a multi-epoch
VLBI study of the v=1, J=1-0, 43-GHz SiO maser emission
towards the symbiotic binary R Aquarii. Four epochs of
full-polarization observations were recorded using the
Very Long Baseline Array a facility the National Radio
Astronomy Observatory. The first high-resolution images
of the extended atmosphere of a Mira variable in a
symbiotic binary have been produced.
The SiO masers towards R Aquarii have been found to
exhibit a ring-like morphology ~31 mas (~6.8 AU) in
diameter. The emission changes significantly over a
time period of ~1-2 months with almost no similarity in
structure on timescales >6 months. An analysis of the
four epochs of observations has provided the first direct
evidence of SiO maser proper motions. These observations,
taken as the Mira variable approached maximum light,
show that over a 98-day period the masers have an average
inward proper motion of ~1 mas. This contraction of the
maser shell implies an infall velocity of ~4 km/s for
the SiO masers during this phase of the stellar pulsation
cycle.
In addition to the total intensity images, maps of the
linear and circular polarization morphology were also
produced. These images show that the SiO masers are
significantly polarized, and that the polarization
structure and intensity change on timescales as short as
~1-2 months. For three of the four epochs, a mean
fractional circular polarization of 4% was determined
implying a magnetic field strength Bsec(theta) = 13 G.
For one of the four epochs, the mean fractional circular
polarization was found to be ~14% indicating a magnetic
field strength Bsec(theta) = 46 G. The fractional linear
polarization is fairly constant for all four epochs with
mean values ranging from 20.8-25.0%, and peak values as
high as ~83% for isolated maser features. Maps of the
linear polarization vectors show an orderly structure over
large portions of the maser shell indicating a uniform
magnetic field topology in these regions of the extended
atmosphere of R Aquarii.
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