4,942 research outputs found
Near-Infrared Photometry of Irregular Satellites of Jupiter and Saturn
We present JHKs photometry of 10 Jovian and 4 Saturnian irregular satellites,
taken with the Near-InfraRed Imager (NIRI) at the 8-m Gemini North Observatory
on Mauna Kea, Hawaii. The observed objects have near-infrared colors consistent
with C, P and D-type asteroids, although J XII Ananke and S IX Phoebe show weak
indications of possible water features in the H filter. The four members of the
Himalia-family have similar near-infrared colors, as do the two members of the
Gallic family, S XX Paaliaq and S XXIX Siarnaq. From low resolution normalized
reflectance spectra based on the broadband colors and covering 0.4 to 2.2
microns, the irregular satellites are identified as C-type (J VII Pasiphae, J
VI Himalia and S IX Phoebe), P-type (J XII Ananke and J XVIII Themisto) and
D-type (J IX Carme and J X Sinope), showing a diversity of origins of these
objects.Comment: Accepted by ApJ Letters (emulateapj, 8pages, including 4 figures);
Typos corrected, references adde
Photoacoustic Tomography in a Rectangular Reflecting Cavity
Almost all known image reconstruction algorithms for photoacoustic and
thermoacoustic tomography assume that the acoustic waves leave the region of
interest after a finite time. This assumption is reasonable if the reflections
from the detectors and surrounding surfaces can be neglected or filtered out
(for example, by time-gating). However, when the object is surrounded by
acoustically hard detector arrays, and/or by additional acoustic mirrors, the
acoustic waves will undergo multiple reflections. (In the absence of absorption
they would bounce around in such a reverberant cavity forever). This disallows
the use of the existing free-space reconstruction techniques. This paper
proposes a fast iterative reconstruction algorithm for measurements made at the
walls of a rectangular reverberant cavity. We prove the convergence of the
iterations under a certain sufficient condition, and demonstrate the
effectiveness and efficiency of the algorithm in numerical simulations.Comment: 21 pages, 6 figure
Perceptions of placement experiences of Early Childhood Studies students: the fluency of knowledge and skills
This paper discusses how academic support prepares undergraduate students for their workplace experience, involving cohorts of students from two universities in England, who offer an undergraduate level, three-year, Early Childhood Studies (ECS) degree. By adopting an interpretive approach, questionnaires were administered to the students concerned (n = 65), to seek their views and opinions on the placement experience. These were administered prior to them attending their first placement and then again on their return. The study found that students were more prepared than they originally perceived themselves to be when undertaking placement, and that a lack of confidence derived from fearing the unknown. The findings indicated that tutor and peer support were most valued as preparation tools and it is suggested that this support is a major factor in the confidence levels of students. This paper argues that the explicit knowledge gained from studying a degree course, and the tacit knowledge and skills that are gained through placement should be viewed as a combined approach rather than two separate entities which should, in turn, aid in confidence building. This is of significance both nationally and internationally for those who may be considering including a workplace experience within their programme
Metastable Cosmic Strings in Realistic Models
We investigate the stability of the electroweak Z-string at high
temperatures. Our results show that while finite temperature corrections can
improve the stability of the Z-string, their effect is not strong enough to
stabilize the Z-string in the standard electroweak model. Consequently, the
Z-string will be unstable even under the conditions present during the
electroweak phase transition. We then consider phenomenologically viable models
based on the gauge group and show
that metastable strings exist and are stable to small perturbations for a large
region of the parameter space for these models. We also show that these strings
are superconducting with bosonic charge carriers. The string superconductivity
may be able to stabilize segments and loops against dynamical contraction.
Possible implications of these strings for cosmology are discussed.Comment: 24 pages, 2 figures (available on request); HUTP-92/A032,
Fermilab-Pub-92/228-
Is the GSI anomaly due to neutrino oscillations? - A real time perspective -
We study a model for the "GSI anomaly" in which we obtain the time evolution
of the population of parent and daughter particles directly in real time,
considering explicitly the quantum entanglement between the daughter particle
and neutrino mass eigenstates in the two-body decay. We confirm that the decay
rate of the parent particle and the growth rate of the daughter particle do
\emph{not} feature a time modulation from interference of neutrino mass
eigenstates. The lack of interference is a consequence of the orthogonality of
the mass eigenstates. This result also follows from the density matrix obtained
by tracing out the unobserved neutrino states. We confirm this result by
providing a complementary explanation based on Cutkosky rules applied to the
Feynman diagram that describes the self-energy of the parent particle.Comment: 11 page
Spectral convergence in tapping and physiological fluctuations: coupling and independence of 1/f noise in the central and autonomic nervous systems.
When humans perform a response task or timing task repeatedly, fluctuations in measures of timing from one action to the next exhibit long-range correlations known as 1/f noise. The origins of 1/f noise in timing have been debated for over 20 years, with one common explanation serving as a default: humans are composed of physiological processes throughout the brain and body that operate over a wide range of timescales, and these processes combine to be expressed as a general source of 1/f noise. To test this explanation, the present study investigated the coupling vs. independence of 1/f noise in timing deviations, key-press durations, pupil dilations, and heartbeat intervals while tapping to an audiovisual metronome. All four dependent measures exhibited clear 1/f noise, regardless of whether tapping was synchronized or syncopated. 1/f spectra for timing deviations were found to match those for key-press durations on an individual basis, and 1/f spectra for pupil dilations matched those in heartbeat intervals. Results indicate a complex, multiscale relationship among 1/f noises arising from common sources, such as those arising from timing functions vs. those arising from autonomic nervous system (ANS) functions. Results also provide further evidence against the default hypothesis that 1/f noise in human timing is just the additive combination of processes throughout the brain and body. Our findings are better accommodated by theories of complexity matching that begin to formalize multiscale coordination as a foundation of human behavior
Liberating exomoons in white dwarf planetary systems
Previous studies indicate that more than a quarter of all white dwarf (WD)
atmospheres are polluted by remnant planetary material, with some WDs being
observed to accrete the mass of Pluto in 10^6 years. The short sinking
timescale for the pollutants indicate that the material must be frequently
replenished. Moons may contribute decisively to this pollution process if they
are liberated from their parent planets during the post-main-sequence evolution
of the planetary systems. Here, we demonstrate that gravitational scattering
events among planets in WD systems easily triggers moon ejection. Repeated
close encounters within tenths of a planetary Hill radii are highly destructive
to even the most massive, close-in moons. Consequently, scattering increases
both the frequency of perturbing agents in WD systems, as well as the available
mass of polluting material in those systems, thereby enhancing opportunities
for collision and fragmentation and providing more dynamical pathways for
smaller bodies to reach the WD. Moreover, during intense scattering, planets
themselves have pericenters with respect to the WD of only a fraction of an AU,
causing extreme Hill-sphere contraction, and the liberation of moons into
WD-grazing orbits. Many of our results are directly applicable to exomoons
orbiting planets around main sequence stars.Comment: Published (MNRAS): First published online January 19, 201
The Fate of Exomoons in White Dwarf Planetary Systems
Roughly 1000 white dwarfs are known to be polluted with planetary material,
and the progenitors of this material are typically assumed to be asteroids. The
dynamical architectures which perturb asteroids into white dwarfs are still
unknown, but may be crucially dependent on moons liberated from parent planets
during post-main-sequence gravitational scattering. Here, we trace the fate of
these exomoons, and show that they more easily achieve deep radial incursions
towards the white dwarf than do scattered planets. Consequently, moons are
likely to play a significant role in white dwarf pollution, and in some cases
may be the progenitors of the pollution itself.Comment: 9 pages, 5 figures, accepted for publication in MNRA
- …