1,391 research outputs found
Gravitational waves and stalled satellites from massive galaxy mergers at z <= 1
We present a model for merger-driven evolution of the mass function for
massive galaxies and their central supermassive black holes at late times. We
discuss the current observational evidence in favor of merger-driven massive
galaxy evolution during this epoch, and demonstrate that the observed evolution
of the mass function can be reproduced by evolving an initial mass function
under the assumption of negligible star formation. We calculate the stochastic
gravitational wave signal from the resulting black-hole binary mergers in the
low redshift universe (z <= 1) implied by this model, and find that this
population has a signal-to-noise ratio as much as ~5x larger than previous
estimates for pulsar timing arrays, with an expectation value for the
characteristic strain h_c (f=1 yr^{-1}) = 4.1 x 10^{-15} that may already be in
tension with observational constraints, and a {2-sigma, 3-sigma} lower limit
within this model of h_c (f=1 yr^{-1}) = {1.1 x 10^{-15}, 6.8 x 10^{-16}}. The
strength of this signal is sufficient to make it detectable with high
probability under conservative assumptions within the next several years, if
the principle assumption of merger-driven galaxy evolution since z = 1 holds
true. For cases where a galaxy merger fails to lead to a black hole merger, we
estimate the probability for a given number of satellite unmerged black holes
to remain within a massive host galaxy, and interpret the result in light of
ULX observations. In particular, we find that the brightest cluster galaxies
should have 1-2 such sources with luminosities above 10^{39} erg/s, which is
consistent with the statistics of observed ULXs.Comment: 11 pages, 5 figures, submitted to ApJ, v2 includes the referee's
requested change
Detecting gravitational waves from highly eccentric compact binaries
In dense stellar regions, highly eccentric binaries of black holes and
neutron stars can form through various n-body interactions. Such a binary could
emit a significant fraction of its binding energy in a sequence of largely
isolated gravitational wave bursts prior to merger. Given expected black hole
and neutron star masses, many such systems will emit these repeated bursts at
frequencies within the sensitive band of contemporary ground-based
gravitational wave detectors. Unfortunately, existing gravitational wave
searches are ill-suited to detect these signals. In this work, we adapt a
"power stacking" method to the detection of gravitational wave signals from
highly eccentric binaries. We implement this method as an extension of the
Q-transform, a projection onto a multiresolution basis of windowed complex
exponentials that has previously been used to analyze data from the network of
LIGO/Virgo detectors. Our method searches for excess power over an ensemble of
time-frequency tiles. We characterize the performance of our method using Monte
Carlo experiments with signals injected in simulated detector noise. Our
results indicate that the power stacking method achieves substantially better
sensitivity to eccentric binary signals than existing localized burst searches.Comment: 17 pages, 20 figure
Vibration problems of skips in mine shafts : the effect of compressive forces in the guides
Investigations into problems involving the vibration of conveyances in deep mining shafts have led to the identification of 'slamming' as a significant event in the initiation of large perturbations in the motion of the skip. Slamming occurs when the flexible rollers on the skip which normally act on the guides are inoperative. The primary concern is that this slamming event can give rise to large lateral loads on the shaft steelwork and is therefore a factor which limits the speed at which the skip can be drawn up the shaft. This study extends previous work to investigate the influence of compressive forces in the guides on the response of the skip and the steelwork. These forces are induced as a result of mining operations and lead to a decrease in the transverse stiffness of the guides. A mathematical model of the slamming event is formulated and a numerical solution for a specific case is performed. An alternative simplified solution is discussed and compared to the initial formulation, with the aim of facilitating the use of previous research results. A model to simulate the response of the skip when the skip rollers are functional is formulated, and numerical solutions of different examples are given. An important conclusion is that the compressive forces can significantly reduce the transverse stiffness of the guides, and should be taken into account in future designs. Bibliography: pages 86-88
Observing complete gravitational wave signals from dynamical capture binaries
We assess the detectability of the gravitational wave signals from highly
eccentric compact binaries. We use a simple model for the inspiral, merger, and
ringdown of these systems. The model is based on mapping the binary to an
effective single black hole system described by a Kerr metric, thereby
including certain relativistic effects such as zoom-whirl-type behavior. The
resultant geodesics source quadrupolar radiation and, in turn, are evolved
under its dissipative effects. At the light ring, we attach a merger model that
was previously developed for quasicircular mergers but also performs well for
eccentric mergers with little modification. We apply this model to determine
the detectability of these sources for initial, Enhanced, and Advanced LIGO
across the parameter space of nonspinning close capture compact binaries. We
conclude that, should these systems exist in nature, the vast majority will be
missed by conventional burst searches or by quasicircular waveform templates in
the advanced detector era. Other methods, such as eccentric templates or, more
practically, a stacked excess power search, must be developed to avoid losing
these sources. These systems would also have been missed frequently in the
initial LIGO data analysis. Thus, previous null coincidence results with
detected gamma-ray bursts cannot exclude the possibility of coincident
gravitational wave signals from eccentric binaries.Comment: 18 pages, 18 figures; revised to match accepted version, PRD in pres
Comparisons of binary black hole merger waveforms
This a particularly exciting time for gravitational wave physics.
Ground-based gravitational wave detectors are now operating at a sensitivity
such that gravitational radiation may soon be directly detected, and recently
several groups have independently made significant breakthroughs that have
finally enabled numerical relativists to solve the Einstein field equations for
coalescing black-hole binaries, a key source of gravitational radiation. The
numerical relativity community is now in the position to begin providing
simulated merger waveforms for use by the data analysis community, and it is
therefore very important that we provide ways to validate the results produced
by various numerical approaches. Here, we present a simple comparison of the
waveforms produced by two very different, but equally successful
approaches--the generalized harmonic gauge and the moving puncture methods. We
compare waveforms of equal-mass black hole mergers with minimal or vanishing
spins. The results show exceptional agreement for the final burst of radiation,
with some differences attributable to small spins on the black holes in one
case.Comment: Revtex 4, 5 pages. Published versio
On the use of variability time-scales as an early classifier of radio transients and variables
We have shown previously that a broad correlation between the peak radio
luminosity and the variability time-scales, approximately L ~ t^5, exists for
variable synchrotron emitting sources and that different classes of
astrophysical source occupy different regions of luminosity and time-scale
space. Based on those results, we investigate whether the most basic
information available for a newly discovered radio variable or transient -
their rise and/or decline rate - can be used to set initial constraints on the
class of events from which they originate. We have analysed a sample of ~ 800
synchrotron flares, selected from light-curves of ~ 90 sources observed at 5-8
GHz, representing a wide range of astrophysical phenomena, from flare stars to
supermassive black holes. Selection of outbursts from the noisy radio
light-curves has been done automatically in order to ensure reproducibility of
results. The distribution of rise/decline rates for the selected flares is
modelled as a Gaussian probability distribution for each class of object, and
further convolved with estimated areal density of that class in order to
correct for the strong bias in our sample. We show in this way that comparing
the measured variability time-scale of a radio transient/variable of unknown
origin can provide an early, albeit approximate, classification of the object,
and could form part of a suite of measurements used to provide early
categorisation of such events. Finally, we also discuss the effect
scintillating sources will have on our ability to classify events based on
their variability time-scales.Comment: Accepted for publication in MNRA
Intraoperative glucose management in children < 1 year or < 10 kg: an observational study
Background: Infants may be at risk of hypoglycaemia in the perioperative period. Current evidence has led to the global use of maintenance fluid with low-concentration dextrose in these patients. This study aimed to analyse the current practice of anaesthetists in the authors’ institution with regard to blood glucose management, and to assess its adequacy.Methods: Ninety-nine patients under one year of age, or less than 10 kilograms, who required anaesthesia were enrolled. The intraoperative management of intravenous dextrose administration and blood glucose monitoring was at the discretion of the attending anaesthetists. Data collected included patient demographics, period of starvation, dose of dextrose administered and blood glucose measurements taken.Results: Nine infants had at least one glucose value lower than 3.7 mmol/l at any time during the procedure, while all received intravenous dextrose intraoperatively. The hypoglycaemic episode occurred on initial measurement (start of surgery) in five infants and later on in the procedure in four infants. This subgroup had an average age of 1.5 months, and average weight of 2.9 kg. Seven of these infants had significant co-morbidities and/or prematurity and low birthweight.Conclusions: The findings indicate that anaesthetists adhere to current recommendations regarding glucose management, and confirmed the safety of intraoperative administration of 0–2.5% dextrose in isotonic solution to healthy infants. The authors’ observations also emphasised that smaller infants and those with significant co-morbidities are at particular risk of developing hypoglycaemia, despite preoperative and intraoperative dextrose administration. It remains important to check glucose levels in patients at risk of hypoglycaemia.Keywords: dextrose, infants, intraoperative, hypoglycaemia, hyperglycaemi
Two fast X-ray transients in archival Chandra data
We present the discovery of two new X-ray transients in archival Chandra
data. The first transient, XRT 110103, occurred in January 2011 and shows a
sharp rise of at least three orders of magnitude in count rate in less than 10
s, a flat peak for about 20 s and decays by two orders of magnitude in the next
60 s. We find no optical or infrared counterpart to this event in preexisting
survey data or in an observation taken by the SIRIUS instrument at the Infrared
Survey Facility 2.1 yr after the transient, providing limiting magnitudes of
J>18.1, H>17.6 and Ks>16.3. This event shows similarities to the transient
previously reported in Jonker et al. which was interpreted as the possible
tidal disruption of a white dwarf by an intermediate mass black hole. We
discuss the possibility that these transients originate from the same type of
event. If we assume these events are related a rough estimate of the rates
gives 1.4*10^5 per year over the whole sky with a peak 0.3-7 keV X-ray flux
greater than 2*10^-10 erg cm^-2 s^-1 . The second transient, XRT 120830,
occurred in August 2012 and shows a rise of at least three orders of magnitude
in count rate and a subsequent decay of around one order of magnitude all
within 10 s, followed by a slower quasi-exponential decay over the remaining 30
ks of the observation. We detect a likely infrared counterpart with magnitudes
J=16.70+/-0.06, H=15.92+/-0.04 and Ks=15.37+/-0.06 which shows an average
proper motion of 74+/-19 milliarcsec per year compared to archival 2MASS
observations. The JHKs magnitudes, proper motion and X-ray flux of XRT 120830
are consistent with a bright flare from a nearby late M or early L dwarf.Comment: Accepted for publication in MNRAS, 6 pages, 5 figure
Closing the Gap Between Nano- and Macroscale: Atomic Interactions vs. Macroscopic Materials Behavior
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