25 research outputs found
The Hubble Web: The Dark Matter Problem and Cosmic Strings
I propose a reinterpretation of cosmic dark matter in which a rigid network
of cosmic strings formed at the end of inflation. The cosmic strings fulfill
three functions: At recombination they provide an accretion mechanism for
virializing baryonic and warm dark matter into disks. These cosmic strings
survive as configurations which thread spiral and elliptical galaxies leading
to the observed flatness of rotation curves and the Tully-Fisher relation. We
find a relationship between the rotational velocity of the galaxy and the
string tension and discuss the testability of this model.Comment: 5 page
Astrophysics in Southern Africa
The government of South Africa has identified astronomy as a field in which
their country has a strategic advantage and is consequently investing very
significantly in astronomical infrastructure. South Africa now operates a 10-m
class optical telescope, the Southern African Large Telescope (SALT), and is
one of two countries short listed to host the Square Kilometre Array (SKA), an
ambitious international project to construct a radio telescope with a
sensitivity one hundred times that of any existing telescope. The challenge now
is to produce an indigenous community of users for these facilities,
particularly from among the black population which was severely disadvantaged
under the apartheid regime. In this paper I briefly describe the observing
facilities in Southern Africa before going on to discuss the various
collaborations that are allowing us to use astronomy as a tool for development,
and at the same time to train a new generation of astronomers who will be well
grounded in the science and linked to their colleagues internationally.Comment: Paper given at the 2007 meeting of the National Society of Black
Physicists; 10 pages, 2 photographs. To appear in American Institute of
Physics Conference Proceeding
Observations of an Energetically Isolated Quiet Sun Transient: Evidence of Quasi-Steady Coronal Heating
Increasing evidence for coronal heating contributions from cooler solar
atmospheric layers, notably quiet Sun (QS) conditions, challenges standard
solar atmospheric descriptions of bright transition region (TR) emission. As
such, questions to the role of dynamic QS transients in contributing to the
total coronal energy budget are elevated. Using observations from the {\it
Atmospheric Imaging Assembly} and {\it Heliosemic Magnetic Imager} on board the
{\it Solar Dynamics Observatory}, and numerical model extrapolations of coronal
magnetic fields, we investigate a dynamic QS transient energetically isolated
to the TR and extruding from a common footpoint shared with two heated loop
arcades. A non-casual relationship is established between episodic heating of
the QS transient and wide-spread magnetic field re-organization events, while
evidence is found favoring a magnetic topology typical of eruptive processes.
Quasi-steady interchange reconnection events are implicated as a source of the
transient's visibly bright radiative signature. We consider the QS transient's
temporally stable (\,35\,min) radiative nature occurs as a result of
the large-scale magnetic field geometries of the QS and/or relatively quiet
nature of the magnetic photosphere, which possibly act to inhibit energetic
buildup processes required to initiate a catastrophic eruption phase. This work
provides insight to the QS's thermodynamic and magnetic relation to eruptive
processes quasi-steadily heating a small-scale dynamic and TR transient. This
work elevates arguments of non-negligible coronal heating contributions from
cool atmospheric layers in QS conditions, and increases evidence for solar wind
mass feeding of dynamic transients therein.Comment: 13 pages, 9 figure
Comparative Analysis of a Transition Region Bright Point with a Blinker and Coronal Bright Point Using Multiple EIS Emission Lines
Since their discovery twenty year ago, transition region bright points
(TRBPs) have never been observed spectroscopically. Bright point properties
have not been compared with similar transition region and coronal structures.
In this work we have investigated three transient quiet Sun brightenings
including a TRBP, a coronal BP (CBP) and a blinker. We use time-series
observations of the extreme ultraviolet emission lines of a wide range of
temperature T (log T = 5.3 - 6.4) from the EUV imaging spectrometer (EIS)
onboard the Hinode satellite. We present the EIS temperature maps and Doppler
maps, which are compared with magnetograms from the Michelson Doppler Imager
(MDI) onboard the SOHO satellite. Doppler velocities of the TR BP and blinker
are <,25 km s, which is typical of transient TR phenomena. The Dopper
velocities of the CBP were found to be < 20 km s^{-1} with exception of those
measured at log T = 6.2 where a distinct bi-directional jet is observed. From
an EM loci analysis we find evidence of single and double isothermal components
in the TRBP and CBP, respectively. TRBP and CBP loci curves are characterized
by broad distributions suggesting the existence of unresolved structure. By
comparing and contrasting the physical characteristics of the events we find
the BP phenomena are an indication of multi-scaled self similarity, given
similarities in both their underlying magnetic field configuration and
evolution in relation to EUV flux changes. In contrast, the blinker phenomena
and the TRBP are sufficiently dissimilar in their observed properties as to
constitute different event classes. Our work indicates that the measurement of
similar characteristics across multiple event types holds class-predictive
power, and is a significant step towards automated solar atmospheric
multi-class classification of unresolved transient EUV sources.Comment: 38 pages, 16 figure
Simulated LSST Survey of RR Lyrae Stars throughout the Local Group
We report on a study to determine the efficiency of the Large Synoptic Survey Telescope (LSST) to recover the periods, brightnesses, and shapes of RR Lyrae stars' light curves in the volume extending to heliocentric distances of 1.5 Mpc. We place the smoothed light curves of 30 type ab and 10 type c RR Lyrae stars in 1007 fields across the sky, each of which represents a different realization of the LSST sampling cadences, and that sample five particular observing modes. A light curve simulation tool was used to sample the idealized RR Lyrae stars' light curves, returning each as it would have been observed by LSST, including realistic photometric scatter, limiting magnitudes, and telescope downtime. We report here the period, brightness, and light curve shape recovery as a function of apparent magnitude and for survey lengths varying from 1 to 10 years. We find that 10 years of LSST data are sufficient to recover the pulsation periods with a fractional precision of ~10^(–5) for ≥90% of ab stars within ≈360 kpc of the Sun in Universal Cadence fields and out to ≈760 kpc for Deep Drilling fields. The 50% completeness level extends to ≈600 kpc and ≈1.0 Mpc for the same fields, respectively. For virtually all stars that had their periods recovered, their light curve shape parameter φ_31 was recovered with sufficient precision to also recover photometric metallicities to within 0.14 dex (the systematic error in the photometric relations). With RR Lyrae stars' periods and metallicities well measured to these distances, LSST will be able to search for halo streams and dwarf satellite galaxies over half of the Local Group, informing galaxy formation models and providing essential data for mapping the Galactic potential. This study also informs the LSST science operations plan for optimizing observing strategies to achieve particular science goals. We additionally present a new [Fe/H]-φ_31 photometric relation in the r band and a new and generally useful metric for defining period recovery for time domain surveys
Exploring the Variable Sky with LINEAR. II. Halo Structure and Substructure Traced by RR Lyrae Stars to 30 kpc
We present a sample of ~5000 RR Lyrae stars selected from the recalibrated LINEAR data set and detected at heliocentric distances between 5 kpc and 30 kpc over ~8000 deg^2 of sky. The coordinates and light curve properties, such as period and Oosterhoff type, are made publicly available. We analyze in detail the light curve properties and Galactic distribution of the subset of ~4000 type ab RR Lyrae (RRab) stars, including a search for new halo substructures and the number density distribution as a function of Oosterhoff type. We find evidence for the Oosterhoff dichotomy among field RR Lyrae stars, with the ratio of the type II and I subsamples of about 1:4, but with a weaker separation than for globular cluster stars. The wide sky coverage and depth of this sample allow unique constraints for the number density distribution of halo RRab stars as a function of galactocentric distance: it can be described as an oblate ellipsoid with an axis ratio q = 0.63 and with either a single or a double power law with a power-law index in the range –2 to –3. Consistent with previous studies, we find that the Oosterhoff type II subsample has a steeper number density profile than the Oosterhoff type I subsample. Using the group-finding algorithm EnLink, we detected seven candidate halo groups, only one of which is statistically spurious. Three of these groups are near globular clusters (M53/NGC 5053, M3, M13), and one is near a known halo substructure (Virgo Stellar Stream); the remaining three groups do not seem to be near any known halo substructures or globular clusters and seem to have a higher ratio of Oosterhoff type II to Oosterhoff type I RRab stars than what is found in the halo. The extended morphology and the position (outside the tidal radius) of some of the groups near globular clusters are suggestive of tidal streams possibly originating from globular clusters. Spectroscopic follow-up of detected halo groups is encouraged
Observation and Modeling of the Solar Transition Region: II. Solutions of the Quasi-Static Loop Model
In the present work we undertake a study of the quasi-static loop model and
the observational consequences of the various solutions found. We obtain the
most general solutions consistent with certain initial conditions. Great care
is exercised in choosing these conditions to be physically plausible (motivated
by observations). We show that the assumptions of previous quasi-static loop
models, such as the models of Rosner, Tucker and Vaiana (1978) and Veseckey,
Antiochos and Underwood (1979), are not necessarily valid for small loops at
transition region temperatures. We find three general classes of solutions for
the quasi-static loop model, which we denote, radiation dominated loops,
conduction dominated loops and classical loops. These solutions are then
compared with observations. Departures from the classical scaling law of RTV
are found for the solutions obtained. It is shown that loops of the type that
we model here can make a significant contribution to lower transition region
emission via thermal conduction from the upper transition region.Comment: 30 pages, 3 figures, Submitted to ApJ, Microsoft Word File 6.0/9
LSST Science Book, Version 2.0
A survey that can cover the sky in optical bands over wide fields to faint
magnitudes with a fast cadence will enable many of the exciting science
opportunities of the next decade. The Large Synoptic Survey Telescope (LSST)
will have an effective aperture of 6.7 meters and an imaging camera with field
of view of 9.6 deg^2, and will be devoted to a ten-year imaging survey over
20,000 deg^2 south of +15 deg. Each pointing will be imaged 2000 times with
fifteen second exposures in six broad bands from 0.35 to 1.1 microns, to a
total point-source depth of r~27.5. The LSST Science Book describes the basic
parameters of the LSST hardware, software, and observing plans. The book
discusses educational and outreach opportunities, then goes on to describe a
broad range of science that LSST will revolutionize: mapping the inner and
outer Solar System, stellar populations in the Milky Way and nearby galaxies,
the structure of the Milky Way disk and halo and other objects in the Local
Volume, transient and variable objects both at low and high redshift, and the
properties of normal and active galaxies at low and high redshift. It then
turns to far-field cosmological topics, exploring properties of supernovae to
z~1, strong and weak lensing, the large-scale distribution of galaxies and
baryon oscillations, and how these different probes may be combined to
constrain cosmological models and the physics of dark energy.Comment: 596 pages. Also available at full resolution at
http://www.lsst.org/lsst/sciboo