3,960 research outputs found
Engineering rich two-dimensional higher-order topological phases by flux and periodic driving
Nodal-line semimetals are commonly believed to exist in
symmetric or mirror-rotation symmetric systems. Here, we find a flux-induced
parameter-dimensional second-order nodal-line semimetal (SONLS) in a
two-dimensional system without and mirror-rotation symmetries.
It has coexisting hinge Fermi arcs and drumhead surface states. Meanwhile, we
discover a flux-induced second-order topological insulator (SOTI). We then
propose a Floquet engineering scheme to create exotic parameter-dimensional
hybrid-order nodal-line semimetals with abundant nodal-line structures and
widely tunable numbers of corner states in a SONLS and SOTI, respectively. Our
results break the perception of SONLSs and supply a convenient way to
artificially synthesize exotic topological phases by periodic driving
Correlation between periostin and SNCG and esophageal cancer invasion, infiltration and apoptosis
AbstractObjectiveTo investigate the correlation between periostin and SNCG and esophageal cancer invasion, infiltration and apoptosis.MethodsA total of 78 cases esophageal surgical resection specimens were collected, expression of periostin and SNCG in esophageal cancer were detected. Effect of periostin and SNCG in esophageal carcinoma invasion and infiltration was analyzed.ResultsThe upregulated rate of periostin had significant difference in esophageal cancer tissues (39.74%), adjacent tissues (17.86%) and normal tissues (0.00%); The positive expression rates of SNCG had significant difference in esophageal cancer tissues (61.54%), adjacent tissues (32.14%) and normal tissues (1.96%); The upregulated rate of periostin had a significant correlation with lymph node metastasis, adventitia invasion, TNM stage; The positive expression rates of SNCG had a significant correlation with differentiation degree, lymph node metastasis, adventitia invasion, TNM stage; Apoptosis index of the positive of expression of SNCG of esophageal cancer tissue (4.541±2.267) was significantly lower than that of the negative expression (7.316±2.582) (P<0.05).ConclusionsSNCG may play an important role in invasion, infiltration and apoptosis of esophageal cancer and serve as target spots in the targeted therapy of esophageal cancer
Cosmology-independent Estimate of the Fraction of Baryon Mass in the IGM from Fast Radio Burst Observations
The excessive dispersion measure (DM) of fast radio bursts (FRBs) has been proposed to be a powerful tool to study intergalactic medium (IGM) and to perform cosmography. One issue is that the fraction of baryons in the IGM, f IGM, is not properly constrained. Here, we propose a method of estimating f IGM using a putative sample of FRBs with the measurements of both DM and luminosity distance d L. The latter can be obtained if the FRB is associated with a distance indicator (e.g., a gamma-ray burst or a gravitational-wave event), or the redshift z of the FRB is measured and d L at the corresponding z is available from other distance indicators (e.g., SNe Ia) at the same redshift. As d L/DM essentially does not depend on cosmological parameters, our method can determine f IGM independent of cosmological parameters. We parameterize f IGM as a function of redshift and model the DM contribution from a host galaxy as a function of star formation rate. Assuming f IGM has a mild evolution with redshift with a functional form and by means of Monte Carlo simulations, we show that an unbiased and cosmology-independent estimate of the present value of f IGM with a ~12% uncertainty can be obtained with 50 joint measurements of d L and DM. In addition, such a method can also lead to a measurement of the mean value of DM contributed from the local host galaxy
Extremal number of graphs from geometric shapes
We study the Tur\'{a}n problem for highly symmetric bipartite graphs arising
from geometric shapes and periodic tilings commonly found in nature.
1. The prism is the graph
consisting of two vertex disjoint -cycles and a matching pairing the
corresponding vertices of these two cycles. We show that for every ,
ex. This resolves a conjecture of He,
Li and Feng.
2. The hexagonal tiling in honeycomb is one of the most natural structures in
the real world. We show that the extremal number of honeycomb graphs has the
same order of magnitude as their basic building unit 6-cycles.
3. We also consider bipartite graphs from quadrangulations of the cylinder
and the torus. We prove near optimal bounds for both configurations. In
particular, our method gives a very short proof of a tight upper bound for the
extremal number of the 2-dimensional grid, improving a recent result of
Brada\v{c}, Janzer, Sudakov and Tomon.
Our proofs mix several ideas, including shifting embedding schemes, weighted
homomorphism and subgraph counts and asymmetric dependent random choice.Comment: 23 page
Biodegradation of polycyclic aromatic hydrocarbons (PAHs) by white rot-fungus Pseudotrametes gibbosa isolated from the boreal forest in Northeast China
This study compared laccase production and the degradation of polycyclic aromatic hydrocarbons (PAHs) by aboriginal white rot-fungus Pseudotrametes gibbosa (found in the northeast forest area of China) and Pleurotus ostreatus (which has been studied both domestically in China and overseas). The results showed that the laccase activity of P. gibbosa was 2841.3 U/l, which was 6 times more than that of P. ostreatus under the same culture conditions. The degradation of Anthracene and pyrene induced by P. gibbosa were 43.43 and 24.26%, while the removal efficiencies induced by P. ostreatus were only 30.12 and 18.76%. The results also showed a positive correlation between the PAHs degradation and laccase activity, and Pseudotrametes gibbosa had significant potential due to its higher laccase production and more potent degradation of PAHs. This study provides technical support for pollution amelioration using aboriginal white-rot fungus.Key words: White-rot fungus, laccase, polycyclic aromatic hydrocarbons, degradation
Analysis on the vehicle-bridge coupled vibrations of long-span cable-stayed bridge based on multiscale model
The paper introduces the principals and methods of universal multiscale modeling, and simply verifies them. It also derives the vibration equations of the bridge and the vehicles, and programs the universal program for analyzing two-axle vehicle-bridge coupled vibration via Ansys and Matlab software based on Newmark-β method. It proposes the universal method for analyzing vehicle-bridge coupled vibrations of long-span cable-stayed bridge based on multiscale model, and takes a single pylon cable-stayed bridge as an example to analyze and verify it
Energy-efficient multihop cooperative MISO transmission with optimal hop distance in wireless ad hoc networks
In this paper, we investigate the hop distance optimization problem in ad hoc networks where cooperative multiinput- single-output (MISO) is adopted to improve the energy efficiency of the network. We first establish the energy model of multihop cooperative MISO transmission. Based on the model, the energy consumption per bit of the network with high node density is minimized numerically by finding an optimal hop distance, and, to get the global minimum energy consumption, both hop distance and the number of cooperating nodes around each relay node for multihop transmission are jointly optimized. We also compare the performance between multihop cooperative MISO transmission and single-input-single-output (SISO) transmission, under the same network condition (high node density). We show that cooperative MISO transmission could be energyinefficient compared with SISO transmission when the path-loss exponent becomes high. We then extend our investigation to the networks with varied node densities and show the effectiveness of the joint optimization method in this scenario using simulation results. It is shown that the optimal results depend on network conditions such as node density and path-loss exponent, and the simulation results are closely matched to those obtained using the numerical models for high node density cases
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