189 research outputs found
Asymmetric Fermi Superfluid With Two Types Of Pairings
We investigate the phase diagram in the plane of temperature and chemical
potential mismatch for an asymmetric fermion superfluid with double- and
single-species pairings. There is no mixing of these two types of pairings at
fixed chemical potential, but the introduction of the single species pairing
cures the magnetic instability at low temperature.Comment: 6 pages, 1 figure. Proceedings of Poster Session, Quark Matter 2006,
November 14-20, 2006, Shanghai, P.R.Chin
Neutrino Emission From Direct Urca Processes in Pion Condensed Quark Matter
We study neutrino emission from direct Urca processes in pion condensed quark
matter. In compact stars with high baryon density, the emission is dominated by
the gapless modes of the pion condensation which leads to an enhanced
emissivity. While for massless quarks the enhancement is not remarkable, the
emissivity is significantly larger and the cooling of the condensed matter is
considerably faster than that in normal quark matter when the mass difference
between - and -quarks is sizable.Comment: 12 pages,6 figures, published versio
Neutrino Emission From Inhomogeneous Pion Condensed Quark Matter
It is believed that quark matter can exist in neutron star interior if the
baryon density is high enough. When there is a large isospin density, quark
matter could be in a pion condensed phase. We compute neutrino emission from
direct Urca processes in such a phase, particularly in the inhomogeneous
Larkin-Ovchinnikov-Fulde-Ferrell (LOFF) states. The neutrino emissivity and
specific heat are obtained, from which the cooling rate is estimated.Comment: 10 pages, 5 figures. A new reference added,published versio
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The uncertainty analysis of the MODIS GPP product in global maize croplands
Gross primary productivity (GPP) is very important in the global carbon cycle. Currently, the newly released estimates of 8-day GPP at 500 m spatial resolution (Collection 6) are provided by the Moderate Resolution Imaging Spectroradiometer (MODIS) Land Science Team for the global land surface via the improved light use efficiency (LUE) model. However, few studies have evaluated its performance. In this study, the MODIS GPP products (GPPMOD) were compared with the observed GPP (GPPEC) values from site-level eddy covariance measurements over seven maize flux sites in different areas around the world. The results indicate that the annual GPPMOD was underestimated by 6%ā58% across sites. Nevertheless, after incorporating the parameters of the calibrated LUE, the measurements of meteorological variables and the reconstructed Fractional Photosynthetic Active Radiation (FPAR) into the GPPMOD algorithm in steps, the accuracies of GPPMOD estimates were improved greatly, albeit to varying degrees. The differences between the GPPMOD and the GPPEC were primarily due to the magnitude of LUE and FPAR. The underestimate of maize cropland LUE was a widespread problem which exerted the largest impact on the GPPMOD algorithm. In American and European sites, the performance of the FPAR exhibited distinct differences in capturing vegetation GPP during the growing season due to the canopy heterogeneity. In addition, at the DE-Kli site, the GPPMOD abruptly produced extreme low values during the growing season because of the contaminated FPAR from a continuous rainy season. After correcting the noise of the FPAR, the accuracy of the GPPMOD was improved by approximately 14%. Therefore, it is crucial to further improve the accuracy of global GPPMOD, especially for the maize crop ecosystem, to maintain food security and better understand global carbon cycle
Asymmetric Fermion Superfluid with Inter- and Intra-Species Pairings
We investigate the phase structure of an asymmetric fermion superfluid with
inter- and intra-species pairings. The introduction of the intra-species
pairing mechanism in canonical ensemble changes significantly the phase diagram
and brings in a new state with coexisting inter- and intra-species pairings.
Different from the case with only inter-species pairing, all the fermion
excitations are fully gapped in the region with intra-species pairing.Comment: 5 pages, 4 figure
Numerical Modeling of a Teeth-shaped Nano-plasmonic Waveguide Filter
In this paper, tooth-shaped and multiple-teeth-shaped plasmonic filters in
the metal-insulator-metal (MIM) waveguides are demonstrated numerically. By
introducing a three-port waveguide splitter, a modified model based on the
multiple-beam-interference and the scattering matrix is given. The ransmittance
spectrum as a function of teeth width, depth, period and period number are
respectively addressed. The result shows the new structure not only performs
the filtering function as well as MIM grating-like structures, but also is of
submicrometer size for ultra-high integration and relatively easy fabrication.Comment: 21pages, 7 figure
Effect of Chiral Symmetry Restoration on Pentaquark Mass and Width at Finite Temperature and Density
We investigate the effect of chiral phase transition on the pentaquark
mass and width at one-loop level of coupling at finite
temperature and density. The behavior of the mass, especially the width in
hadronic medium is dominated by the characteristics of chiral symmetry
restoration at high temperature and high density. The mass and width shifts of
positive-parity are much larger than that of negative-parity one,
which may be helpful to determine the parity of in high energy
nuclear collisions.Comment: 7 pages, 5 figure
Towards Faster Training Algorithms Exploiting Bandit Sampling From Convex to Strongly Convex Conditions
The training process for deep learning and pattern recognition normally involves the use of convex and strongly convex optimization algorithms such as AdaBelief and SAdam to handle lots of āuninformativeā samples that should be ignored, thus incurring extra calculations. To solve this open problem, we propose to design bandit sampling method to make these algorithms focus on āinformativeā samples during training process. Our contribution is twofold: first, we propose a convex optimization algorithm with bandit sampling, termed AdaBeliefBS, and prove that it converges faster than its original version; second, we prove that bandit sampling works well for strongly convex algorithms, and propose a generalized SAdam, called SAdamBS, that converges faster than SAdam. Finally, we conduct a series of experiments on various benchmark datasets to verify the fast convergence rate of our proposed algorithms
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