105,454 research outputs found
Toward an understanding of thermal X-ray emission of pulsars
We present a theoretical model for the thermal X-ray emission and cooling of
isolated pulsars, assuming that pulsars are solid quark stars. We calculate the
heat capacity for such a quark star, and the results show that the residual
thermal energy cannot sustain the observed thermal X-ray luminosities seen in
typical isolated X-ray pulsars. We conclude that other heating mechanisms must
be in operation if the pulsars are in fact solid quark stars. Two possible
heating mechanisms are explored. Firstly, for pulsars with little
magnetospheric activities, accretion from the interstellar medium or from the
material in the associated supernova remnants may power the observed thermal
emission. In the propeller regime, a disk-accretion rate 1% of
the Eddington rate with an accretion onto the stellar surface at a rate of
could explain the observed emission luminosities of the
dim isolated neutron stars and the central compact objects. Secondly, for
pulsars with significant magnetospheric activities, the pulsar spindown
luminosities may have been as the sources of the thermal energy via reversing
plasma current flows. A phenomenological study between pulsar bolometric X-ray
luminosities and the spin energy loss rates presents the probable existence of
a 1/2-law or a linear law, i.e. or
. This result together with the thermal
properties of solid quark stars allow us to calculate the thermal evolution of
such stars. Thermal evolution curves, or cooling curves, are calculated and
compared with the `temperature-age' data obtained from 17 active X-ray pulsars.
It is shown that the bolometric X-ray observations of these sources are
consistent with the solid quark star pulsar model.Comment: Astroparticle Physics Accepte
Empirical pricing kernels obtained from the UK index options market
Empirical pricing kernels for the UK equity market are derived as the ratio between risk-neutral densities, inferred from FTSE 100 index options, and historical real-world densities, estimated from time series of the index. The kernels thus obtained are almost compatible with a risk averse representative agent, unlike similar estimates for the US market
Comparison of different measures for quantum discord under non-Markovian noise
Two geometric measures for quantum discord were recently proposed by Modi et
al. [Phys. Rev. Lett. 104, 080501 (2010)] and Dakic et al. [Phys. Rev. Lett.
105, 190502 (2010)]. We study the similarities and differences for total
quantum correlations of Bell-diagonal states using these two geometry-based
quantum discord and the original quantum discord. We show that, under
non-Markovian dephasing channels, quantum discord and one of the geometric
measures stay constant for a finite amount of time, but not the other geometric
measure. However, all the three measures share a common sudden change point.
Our study on critical point of sudden transition might be useful for keeping
long time total quantum correlations under decoherence.Comment: 10 pages, 3 figures submitted for publicatio
PPM1D phosphatase, a target of p53 and RBM38 RNA-binding protein, inhibits p53 mRNA translation via dephosphorylation of RBM38.
PPM1D phosphatase, also called wild-type p53-induced phosphatase 1, promotes tumor development by inactivating the p53 tumor suppressor pathway. RBM38 RNA-binding protein, also called RNPC1 and a target of p53, inhibits p53 messenger RNA (mRNA) translation, which can be reversed by GSK3 protein kinase via phosphorylation of RBM38 at serine 195. Here we showed that ectopic expression of RBM38 increases, whereas knockdown of RBM38 inhibits, PPM1D mRNA translation. Consistent with this, we found that RBM38 directly binds to PPM1D 3'-untranslated region (3'-UTR) and promotes expression of a heterologous reporter gene that carries PPM1D 3'-UTR in a dose-dependent manner. Interestingly, we showed that PPM1D directly interacts with and dephosphorylates RBM38 at serine 195. Furthermore, we showed that PPM1D modulates p53 mRNA translation and p53-dependent growth suppression through dephosphorylation of RBM38. These findings provide evidence that the crosstalk between PPM1D and RBM38, both of which are targets and modulators of p53, has a critical role in p53 expression and activity
The optical/UV excess of isolated neutron stars in the RCS model
The X-ray dim isolated neutron stars (XDINSs) are peculiar pulsar-like
objects, characterized by their very well Planck-like spectrum. In studying
their spectral energy distributions, the optical/UV excess is a long standing
problem. Recently, Kaplan et al. (2011) have measured the optical/UV excess for
all seven sources, which is understandable in the resonant cyclotron scattering
(RCS) model previously addressed. The RCS model calculations show that the RCS
process can account for the observed optical/UV excess for most sources . The
flat spectrum of RX J2143.0+0654 may due to contribution from bremsstrahlung
emission of the electron system in addition to the RCS process.Comment: 6 pages, 2 figures, 1 table, accepted for publication in Research in
Astronomy and Astrophysic
Why not Merge the International Monetary Fund (IMF) with the International Bank for Reconstruction and Development (World Bank)
Motivation: Cellular Electron CryoTomography (CECT) is an emerging 3D imaging technique that visualizes subcellular organization of single cells at sub-molecular resolution and in near-native state. CECT captures large numbers of macromolecular complexes of highly diverse structures and abundances. However, the structural complexity and imaging limits complicate the systematic de novo structural recovery and recognition of these macromolecular complexes. Efficient and accurate reference-free subtomogram averaging and classification represent the most critical tasks for such analysis. Existing subtomogram alignment based methods are prone to the missing wedge effects and low signal-to-noise ratio (SNR). Moreover, existing maximum-likelihood based methods rely on integration operations, which are in principle computationally infeasible for accurate calculation. Results: Built on existing works, we propose an integrated method, Fast Alignment Maximum Likelihood method (FAML), which uses fast subtomogram alignment to sample sub-optimal rigid transformations. The transformations are then used to approximate integrals for maximum-likelihood update of subtomogram averages through expectation-maximization algorithm. Our tests on simulated and experimental subtomograms showed that, compared to our previously developed fast alignment method (FA), FAML is significantly more robust to noise and missing wedge effects with moderate increases of computation cost. Besides, FAML performs well with significantly fewer input subtomograms when the FA method fails. Therefore, FAML can serve as a key component for improved construction of initial structuralmodels frommacromolecules captured by CECT
AXPs and SGRs in the outer gap model: confronting Fermi observations
Anomalous X-ray pulsars (AXPs) and soft gamma-ray repeaters (SGRs) are
magnetar candidates, i.e., neutron stars powered by strong magnetic field. If
they are indeed magnetars, they will emit high-energy gamma-rays which are
detectable by Fermi-LAT according to the outer gap model. However, no
significant detection is reported in recent Fermi-LAT observations of all known
AXPs and SGRs. Considering the discrepancy between theory and observations, we
calculate the theoretical spectra for all AXPs and SGRs with sufficient
observational parameters. Our results show that most AXPs and SGRs are
high-energy gamma-ray emitters if they are really magnetars. The four AXPs 1E
1547.0-5408, XTE J1810-197, 1E 1048.1-5937, and 4U 0142+61 should have been
detected by Fermi-LAT. Then there is conflict between out gap model in the case
of magnetars and Fermi observations. Possible explanations in the magnetar
model are discussed. On the other hand, if AXPs and SGRs are fallback disk
systems, i.e., accretion-powered for the persistent emissions, most of them are
not high-energy gamma-ray emitters. Future deep Fermi-LAT observations of AXPs
and SGRs will help us make clear whether they are magnetars or fallback disk
systems.Comment: 15 pages, 3 figures, 1 table, accepted for publication in The
Astrophysical Journa
Enhancement of quantum correlations for the system of cavity QED by applying bang-bang pulses
We propose a scheme of increasing quantum correlations for the cavity quantum
electrodynamics system consisting of two noninteracting two-level atoms each
locally interacting with its own quantized field mode by bang-bang pulses. We
investigate the influence of the bang-bang pulses on the dynamics of quantum
discord, entanglement, quantum mutual information and classical correlation
between the two atoms. It is shown that the amount of quantum discord and
entanglement of the two atoms can be improved by applying the bang-bang pulses.Comment: 6 pages, 5 figure
Triple-Gluon and Triple-Quark Elastic Scatterings and Early Thermalization
Three-gluon to three-gluon scatterings lead to rapid thermalization of gluon
matter created in central Au-Au collisions at RHIC energies. Thermalization of
quark matter is studied from three-quark to three-quark scatterings.Comment: 8 pages, 5 figures, talk presented at the workshop on
quark-gluon-plasma thermalization, TU Wien, Vienna, Austria, Aug. 2005. v2:
add two figures and relevant discussion
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