| 11:30 am – 12:00
pm |
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Variable
Star Astronomy Education Outreach Initiative
powerpoint | pdf |
Donna L. Young |
20
minutes |
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| Abstract:
The American Association of Variable Star Observers (AAVSO) published a
comprehensive variable star curriculum, “Hands-On
Astrophysics,
Variable Stars in Science, Math, and Computer Education” in
1997. The
curriculum, funded by the National Science Foundation, was developed
for a comprehensive audience – amateur astronomers, classroom
educators, science fair projects, astronomy clubs, family learning, and
anyone interested in learning about variable stars. Some of the
activities from the Hands-On Astrophysics curriculum have been
incorporated into the educational materials for the Chandra X-Ray
Observatory’s Educational and Public Outreach (EPO) Office.
On two
occasions, in 2000 and 2001, triggered by alerts from amateur
astronomers, Chandra observed the outburst of the dwarf nova SS Cygni.
The cooperation of amateur variable star astronomers and Chandra X-Ray
scientists provided proof that the collaboration of amateur and
professional astronomers is a powerful tool to study cosmic phenomena.
Once again, the Chandra and AAVSO have teamed up – this time
to promote
variable star education. The Hands-On Astrophysics curriculum is being
re-designed and updated from the original materials to a web-based
format and is nearing completion. The new version, re-named Variable
Star Astronomy, will provide formal and informal educators, and
especially amateur astronomers, educational materials to help promote
interest in and knowledge of variable stars. |
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The
International Year of Astronomy and Citizen Science
powerpoint | pdf | video
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Aaron Price |
10
minutes |
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| Abstract:
2009 has been endorsed as the International Year of Astronomy by both
the United Nations and the United States Congress. This talk will
briefly outline the IYA cornerstone projects and then will go into more
detail regarding the AAVSO's role as leading a citizen science project
regarding the variable star Epsilon Aurigae. |
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| 12:00 pm – 1:30
pm
Lunch Break |
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| 1:30 pm – 3:25 pm |
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Automated
calibration and an open-source sky survey
pdf | video
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David Hogg |
30
minutes |
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| Abstract:
I describe a system that can take any astronomical image (professional,
historical, or amateur) and, based on the content of the pixels alone,
determine the pointing, rotation, and scale of that image, plus other
calibration information (such as date, bandpass, point-spread function,
and sensitivity). We are using this system to start an "open-source
sky survey" in which we build up time-resolved imaging of the sky, and
a physical model of the sources therein, from heterogeneous data from
all available sources. This is a great opportunity to start a rich
communication channel between professional and amateur astronomers,
with data and ideas flowing both ways. |
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The
Chandra Variable Guide Star Catalog
ppt | pdf |
Joy Nichols |
30
minutes |
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| Coauthors: D.
Huenemoerder, E. Martin, J. Lauer, D, Morgan, A. Henden & the
AAVSO |
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| Abstract:
The Chandra X-ray Observatory has observed about 37,000 stars in the
wavelength range 4000-9000 A as guide stars for maintaining pointing
control of the satellite. While these guide stars were intended to be
non-variable in order to maximize the pointing accuracy, we have found
that 673 are variable, generally at the 0.05 mag level. The catalog of
these variable guide stars includes many types of variable stars,
including pulsating stars, detached eclipsing binaries, contact
binaries, etc., with spectral types generally in the range A through
K. Light curves of these variables are the same length as the X-ray
observation performed by Chandra, varying from 1 ksec to 170 ksec. The
Chandra Guide Star Catalog includes about 300 stars that appear to be
newly discovered variables. A description of the instrumentation is
included and interesting examples from the catalog are shown and
discussed. We introduce a new collaboration between the Chandra
Variable Guide Star Team and members of the AAVSO, who will enhance
this catalog with expertise in variable star characteristics. For
future investigation, we intend to reprocess all available photometry
in order to look for long-term variability and lower amplitude
fluctuations that may not be apparent in the visual inspection of the
existing time series. This work was supported by NASA contract
NAS8-37073. |
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| The
Evolution of R Coronae Borealis Stars |
Geoffrey Clayton |
20
minutes |
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| Abstract:
Among the hydrogen-deficient post-asymptotic giant branch (post-AGB)
stars are the R Coronae Borealis (RCB) stars, a small group of
carbon-rich supergiants. About 50 RCB stars are known in the Galaxy and
the Magellanic Clouds. Their defining characteristics are hydrogen
deficiency and unusual variability -- RCB stars undergo massive
declines of up to 8 mag due to the formation of carbon dust at
irregular intervals. Apparently related to the RCB stars are the
hydrogen-deficient carbon (HdC) stars. The five known HdC stars are
similar to the RCB stars spectroscopically but do not show declines or
IR excesses. The evidence for and against the two scenarios that have
been proposed for the origin of RCB stars is discussed in the light of
recent observational data. These scenarios are, the double degenerate
and the final helium-shell flash models. The former involves the merger
of a CO- and a He-white dwarf. In the latter, a star evolving into a
planetary nebula central star is blown up to supergiant size by a final
helium shell flash. |
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Reclaiming
the Astronomical and Historical Legacy of Antonia Maury
powerpoint | pdf
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Kristine Larsen |
20
minutes |
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| Abstract:
Antonia Maury is perhaps best known in astronomical history circles as
a student of Maria Mitchell's at Vassar and a pioneer in spectral
classification at the Harvard College Observatory. Among her other
astronomical interests were eclipsing and spectroscopic binaries,
especially Beta Aurigae (which she discovered) and Beta Lyrae, whose
peculiar behavior occupied her interest in the later years of her
career. This paper will highlight Maury's often overlooked
contributions to variable star and binary star astronomy, and strive to
put a human face on this brilliant yet enigmatic woman astronomer
through personal stories told to the author by Dorrit Hoffleit. |
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| Henrietta
Swan Leavitt |
Katy Sternberger |
10
minutes |
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| Abstract:
Henrietta Swan Leavitt, born in 1868, was a great woman astronomer.
Though she is not widely known for her work, she studied Cepheid
variable stars and devised a law which states that a star's brightness
is directly linked to the length of its period. This launched the quest
to discover how to measure the universe. |
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| POSTER: Overview of the DASCH Photometry
Pipeline |
Edward J. Los |
2-3
minutes |
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| Abstract:
DASCH is "Digital Access to a Sky Century at Harvard", the effort to
digitize approximately 520,000 astronomical plates in the Harvard
College Observatory collection. This paper is an overview of the
photometry pipeline which has generated over 400 million magnitude
measurements from over 3400 scanned plates. |
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| POSTER: First steps towards a solar flare
detector using James Faustman Breitmeyer the AAVSO design |
2-3 minutes |
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| 3:25 pm – 3:50
pm Coffee Break |
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| 3:50 pm – 5:30 pm |
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How
do pulsating giant stars make dust?
powerpoint | pdf
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Lee Anne Willson |
20
minutes |
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| Abstract:
Mira variables of spectral types M (more oxygen than carbon), S (carbon
≈ oxygen) and C (more carbon than oxygen) all show signs of
dusty
winds. Radiative acceleration of the dust is thought to play a crucial
role in driving the winds, once the atmosphere has been levitated by
the pulsation. However, efforts to model the nucleation and growth of
dust grains have encountered a host of difficulties. The process is
complex, involving a very large number of reactions of particles
(atoms, molecules, clusters and grains) with each other. The coupling
of the grains to the radiation field is also difficult to model with
confidence, as it depends on the composition, the size and the shape of
the grains. Common approximations to make the problem tractable have
lead to results that contradict observations; for example, they predict
that S stars should produce no dust, but some S stars do. Some ideas
for solving this problem come from laboratory studies. There may also
be ways to get the right result without so much work by taking
advantage of natural feedback evident in the models. |
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A
Microprocessor-based Starfield Simulator
powerpoint | pdf
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Doug Welch |
15
minutes |
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| Coauthors: Anthony
Tektach, Unihedron and Steve Bickerton, Princeton |
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| Abstract:
We present a microprocessor-based system for reproducing the realtime
behavior of stellar time-series, including the effects of selectable
degrees scintillation noise. At present, the system has 64 white LEDs
which are individually programmable. The simulator may be used to
investigate measurement and analysis biases since all properties of
star (constant and variable) are under the control of the programmer. A
live demonstration of the unit will be provided. |
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120
Years of RZ Dor
powerpoint | pdf
|
James Bedient |
10
minutes |
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| Abstract:
Archival data on RZ Dor is examined to update its type and period. Data
ranging from pre-1900 Harvard plates through AAVSO visual
estimates made during the 1980s and 1990s to 21st century CCD
photometry is used to confirm its type as Mira and determine an
accurate period. The value of multiple independent accessible datasets
is confirmed yet again. |
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40
Years of Mystery: Unraveling BZ UMa
powerpoint | pdf
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Aaron Price |
20
minutes |
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| Coauthor: Grant Foster |
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| Abstract:
The dwarf novae BZ UMa has perplexed astronomers for decades. Activity
typical of both UGSU and intermediate polar (IP) dwarf novae have been
detected while no expected UGSU type superoutbursts had been detected
since the star was discovered in 1968. Finally, the diligence of
variable star observers was once again rewarded with a superoutburst in
April, 2007. We report on statistical analysis of the 2007
superoutburst and subsequent polarimetry measurements. We integrate all
our findings into a proposed description and classification of the
system. |
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Update
on HST Campaign on Pulsating White Dwarfs in Cataclysmic Variables
pdf
|
Paula Szkody |
15
minutes |
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| Abstract:
For the past 6 years, we have conducted programs on the Hubble Space
Telescope, coordinated with ground support from the AAVSO network of
observers. These programs have determined temperatures for 9 of the
dozen known pulsating white dwarfs that exist in cataclysmic variables.
Unlike single, non-accreting, white dwarfs, which have a very narrow
range of temperatures within their instability strip, the accreting
pulsators range from 10,500K to 16,500K with most being near the hot
end. In addition, the accreting pulsators are found to stop showing
pulsations at times, a phenomenon not seen in the single white dwarfs.
The superoutbursts of two of our systems in 2007 complicates the
picture further but allows the chance to study the effect of
temperature changes on a relatively short timescale. |
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Two-Color
Photometry of the Double-Mode RR Lyrae Star, NSVS-5222076
powerpoint | pdf
|
David A. Hurdis |
20
minutes |
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| Abstract:
Few double-mode RR Lyrae field stars (i.e., not in a crowded globular
cluster) are known, and observations of them are especially useful to
modelers because their two independent pulsation periods allow a unique
determination of the star’s mass and radius. Only recently
identified
as an RRd field star, NSVS-5222076 is bright and well-placed for
Northern Hemisphere observers. Photometry time-series were acquired in
both the V and I bands. Period analyses of these data were performed
with the Deeming DFT algorithm in Peranso. The results agree with the
fundamental and first-overtone periods determined from V data alone by
Oaster, Smith and Kinemuchi. |
