222 research outputs found
Galactic Open Clusters
The study of open clusters has a classic feel to it since the subject
predates anyone alive today. Despite the age of this topic, I show via an ADS
search that its relevance and importance in astronomy has grown faster in the
last few decades than astronomy in general. This is surely due to both
technical reasons and the interconnection of the field of stellar evolution to
many branches of astronomy. In this review, I outline what we know today about
open clusters and what they have taught us about a range of topics from stellar
evolution to Galactic structure to stellar disk dissipation timescales. I argue
that the most important astrophysics we have learned from open clusters is
stellar evolution and that its most important product has been reasonably
precise stellar ages. I discuss where open cluster research is likely to go in
the next few years, as well as in the era of 20m telescopes, SIM, and GAIA. Age
will continue to be of wide relevance in astronomy, from cosmology to planet
formation timescales, and with distance errors soon no longer a problem,
improved ages will be critically important to many of the most fascinating
astrophysical questions.Comment: 14 pages, to appear in Resolved Stellar Populations, ASP Conference
in Cancu
To Apply or Not to Apply: A Survey Analysis of Grant Writing Costs and Benefits
We surveyed 113 astronomers and 82 psychologists active in applying for
federally funded research on their grant-writing history between January, 2009
and November, 2012. We collected demographic data, effort levels, success
rates, and perceived non-financial benefits from writing grant proposals. We
find that the average proposal takes 116 PI hours and 55 CI hours to write;
although time spent writing was not related to whether the grant was funded.
Effort did translate into success, however, as academics who wrote more grants
received more funding. Participants indicated modest non-monetary benefits from
grant writing, with psychologists reporting a somewhat greater benefit overall
than astronomers. These perceptions of non-financial benefits were unrelated to
how many grants investigators applied for, the number of grants they received,
or the amount of time they devoted to writing their proposals. We also explored
the number of years an investigator can afford to apply unsuccessfully for
research grants and our analyses suggest that funding rates below approximately
20%, commensurate with current NIH and NSF funding, are likely to drive at
least half of the active researchers away from federally funded research. We
conclude with recommendations and suggestions for individual investigators and
for department heads.Comment: Full paper plus three tables not included here and supplemental
material available at
journals.plos.org/plosone/article?id=10.1371/journal.pone.0118494, PLOS ONE,
March 4, 201
White Dwarfs in Open Clusters: New Tests of Stellar Evolution and the Age of the Galaxy
White dwarf cooling theory and very deep observations in star clusters provide a new tool to test stellar evolution theory and time scales. In particular, white dwarf cooling theory is now testing the degree of enhanced core mixing in stars with turnoff ages of 1 to 2 Gyr. More generally, I show the good overall agreement between white dwarf and modern isochrone ages over the range 0.1 to 4 Gyr
Thermal Removal of Carbon Dioxide from the Atmosphere: Energy Requirements and Scaling Issues
I conduct a systems-level study of direct air capture of CO2 using techniques from thermal physics. This system relies on a combination of an efficient heat exchanger, radiative cooling, and refrigeration, all at industrial scale and operated in environments at low ambient temperatures. While technological developments will be required for such a system to operate efficiently, those developments rest on a long history of refrigeration expertise and technology, and they can be developed and tested at modest scale. I estimate that the energy required to remove CO2 via this approach is comparable to direct air capture by other techniques. The most challenging aspect of building a system that could remove 1 billion tonnes of CO2 from the atmosphere per year is the power demand of 112 to 420 GW during the wintertime operational period
Break Out Session: The Future of White Dwarf Observing
On Thursday, June 15, 2000 the conference participants joined on of four afternoon break out sessions. Our break out session was charged with addressing the the following questions: Astronomy is changing. Eight to ten meter telescopes looking towards the edge of the Universe will dominate the astronomical landscape. Queue scheduling, large surveys, and the current emphasis towards the red end of the spectrum will also affect us. What consequences do these changes imply for our field? How can we convince telescope assignment committees to grand observing time to proposers from our community
Moving Objects in the Hubble Ultra Deep Field
We identify proper motion objects in the Hubble Ultra Deep Field (UDF) using
the optical data from the original UDF program in 2004 and the near-infrared
data from the 128-orbit UDF 2012 campaign. There are 12 sources brighter than
I=27 mag that display >3sigma significant proper motions. We do not find any
proper motion objects fainter than this magnitude limit. Combining optical and
near-infrared photometry, we model the spectral energy distribution of each
point-source using stellar templates and state-of-the-art white dwarf models.
For I<27 mag, we identify 23 stars with K0-M6 spectral types and two faint blue
objects that are clearly old, thick disk white dwarfs. We measure a thick disk
white dwarf space density of 0.1-1.7 E-3 per cubic parsec from these two
objects. There are no halo white dwarfs in the UDF down to I=27 mag. Combining
the Hubble Deep Field North, South, and the UDF data, we do not see any
evidence for dark matter in the form of faint halo white dwarfs, and the
observed population of white dwarfs can be explained with the standard Galactic
models.Comment: ApJ, in pres
Galactic Structure from Faint Stromgren Photometry: The Catalog of Observations
We have initiated the faint photometric survey in the Stromgren system covering about 1 square degree and including 1238 objects in order to develop samples which best probe the thick disk population. The catalog of observations are presented here. They were acquired without kinematic or metallicity biases and are complete to V=17.3-18.5, depending on the field, for 810 early to relatively late type stars. Photometric metallicities were derived for 508 stars and indicate a metal-poor stellar population, consistent with a mixture of thick disk and halo stars. While the Stromgren u-band was not part of the survey, follow-up u-band observations of 32 survey objects indicate that intermediate color survey stars are main-sequence or slightly evolved stars, while redder survey stars are giants
Automated Stellar Spectral Classification and Parameterization for the Masses
Stellar spectroscopic classification has been successfully automated by a
number of groups. Automated classification and parameterization work best when
applied to a homogeneous data set, and thus these techniques primarily have
been developed for and applied to large surveys. While most ongoing large
spectroscopic surveys target extragalactic objects, many stellar spectra have
been and will be obtained. We briefly summarize past work on automated
classification and parameterization, with emphasis on the work done in our
group. Accurate automated classification in the spectral type domain and
parameterization in the temperature domain have been relatively easy. Automated
parameterization in the metallicity domain, formally outside the MK system, has
also been effective. Due to the subtle effects on the spectrum, automated
classification in the luminosity domain has been somewhat more difficult, but
still successful. In order to extend the use of automated techniques beyond a
few surveys, we present our current efforts at building a web-based automated
stellar spectroscopic classification and parameterization machine. Our proposed
machinery would provide users with MK classifications as well as the
astrophysical parameters of effective temperature, surface gravity, mean
abundance, abundance anomalies, and microturbulence.Comment: 5 pages; to appear in The Garrison Festschrift conference proceeding
Spitzer White Dwarf Planet Limits
We present preliminary limits on the presence of planets around white dwarf
stars using the IRAC photometer on the Spitzer space telescope. Planets emit
strongly in the mid-infrared which allows their presence to be detected as an
excess at these wavelengths. We place limits of for 8 stars assuming
ages of , and for 23 stars.We describe our survey, present our
results and comment on approaches to improve our methodology.Comment: 4 pages, 3 figures, to appear in Proceedings of 15th European White
Dwarf Worksho
WIYN Data Distribution and Archiving
The NOAO/IRAF Save the Bits archive has been operating for over three years at Kitt Peak National Observatory and at the National Solar Observatory\u27s nighttime program. Since that time, the W. M. Keck Observatory and the Cerro Tololo Inter-American Observatory have also adopted the software. These first generation Save the Bits installations rely on Exabyte tapes as the archival medium, typically using pairs of drives to produce duplicate copies of the data for heightened protection against data loss. The upgrade of Save the Bits that is currently in progress to support writable CD-R drives is discussed. In addition to another media option, this expands the role of the package to include data distribution as well as data archiving. Dual CD-R copies are produced as with tapes. One copy is retained for archival purposes, but the second copy of each nightly CD is released to the appropriate institution as the principle means of data distribution from the telescope. The four individual institutions are free to handle their copy of the data in any appropriate way, such as by mounting the disks into a jukebox as they are received. Both raw and mountain-reduced data are included in random access FITS files on the ISO 9660 CD-ROMs. Planned future improvements include support for DVD format disks. Save the Bits is freely available to outside institutions and is straightforward to install and manage. Hardware requirements are minimal and other storage media should be straightforward to support
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