519 research outputs found
Spurious detection of phase synchronization in coupled nonlinear oscillators
Coupled nonlinear systems under certain conditions exhibit phase
synchronization, which may change for different frequency bands or with
presence of additive system noise. In both cases, Fourier filtering is
traditionally used to preprocess data. We investigate to what extent the phase
synchronization of two coupled R\"{o}ssler oscillators depends on (1) the
broadness of their power spectrum, (2) the width of the band-pass filter, and
(3) the level of added noise. We find that for identical coupling strengths,
oscillators with broader power spectra exhibit weaker synchronization. Further,
we find that within a broad band width range, band-pass filtering reduces the
effect of noise but can lead to a spurious increase in the degree of
synchronization with narrowing band width, even when the coupling between the
two oscillators remains the same.Comment: 4 pages,6 figure
Quantum criticality of a symmetric spin chain with long-range interactions
Based on large-scale density matrix renormalization group techniques, we
investigate the critical behaviors of quantum three-state Potts chains with
long-range interactions. Using fidelity susceptibility as an indicator, we
obtain a complete phase diagram of the system. The results show that as the
long-range interaction power increases, the critical points
shift towards lower values. In addition, the critical threshold
) of the long-range interaction power is obtained for
the first time by a non-perturbative numerical method. This indicates that the
critical behavior of the system can be naturally divided into two distinct
universality classes, namely the long-range (\alpha \textless \alpha_c) and
short-range (\alpha \textgreater \alpha_c) universality classes,
qualitatively consistent with the classical effective field theory.
This work provides a useful reference for further research on phase transitions
in quantum spin chains with long-range interaction.Comment: 5+7 pages. Any comments or suggestions are welcome
Optimization of crystal nucleation close to a metastable fluid-fluid phase transition
The presence of a metastable fluid-fluid critical point is thought to dramatically influence the crystallization pathway, increasing the nucleation rate by many orders of magnitude over the predictions of classical nucleation theory. We use molecular dynamics simulations to study the kinetics of crystallization in the vicinity of this metastable critical point and throughout the metastable fluid-fluid phase diagram. To quantitatively understand how the fluid-fluid phase separation affects the crystal nucleation, we evaluate accurately the kinetics and reconstruct the thermodynamic free-energy landscape of crystal formation. Contrary to expectations, we find no special advantage of the proximity of the metastable critical point on the crystallization rates. However, we find that the ultrafast formation of a dense liquid phase causes the crystallization to accelerate both near the metastable critical point and almost everywhere below the fluid-fluid spinodal line. These results unveil three different scenarios for crystallization that could guide the optimization of the process in experimentsThis work has been supported by the MINECO of the Spanish government through Grants No. FIS2012-31025 and FIS2011-22603. LX thanks the financial support from MOST 973 of China (Grants No. 2015CB856800 and 2012CB921404) and National Science Foundation of China (Grants No. 11174006 and 11290162). HES thanks the NSF Chemistry Division for support (grants CHE 0911389, CHE 0908218, and CHE 1213217). SVB thanks the Office of the Academic Affairs of Yeshiva University for funding the Yeshiva University high-performance computer cluster and acknowledges the partial support of this research through Dr. Bernard W. Gamson computational Science Center at Yeshiva College. (FIS2012-31025 - MINECO of the Spanish government; FIS2011-22603 - MINECO of the Spanish government; 2015CB856800 - MOST 973 of China; 2012CB921404 - MOST 973 of China; 11174006 - National Science Foundation of China; 11290162 - National Science Foundation of China; CHE 0911389 - NSF Chemistry Division; CHE 0908218 - NSF Chemistry Division; CHE 1213217 - NSF Chemistry Division; Office of the Academic Affairs of Yeshiva University; Dr. Bernard W. Gamson computational Science Center at Yeshiva College)Published versio
Involvement of NADH Oxidase in Biofilm Formation in Streptococcus sanguinis
Biofilms play important roles in microbial communities and are related to infectious diseases. Here, we report direct evidence that a bacterial nox gene encoding NADH oxidase is involved in biofilm formation. A dramatic reduction in biofilm formation was observed in a Streptococcus sanguinis nox mutant under anaerobic conditions without any decrease in growth. The membrane fluidity of the mutant bacterial cells was found to be decreased and the fatty acid composition altered, with increased palmitic acid and decreased stearic acid and vaccenic acid. Extracellular DNA of the mutant was reduced in abundance and bacterial competence was suppressed. Gene expression analysis in the mutant identified two genes with altered expression, gtfP and Idh, which were found to be related to biofilm formation through examination of their deletion mutants. NADH oxidase-related metabolic pathways were analyzed, further clarifying the function of this enzyme in biofilm formation
Cystic cavernous malformation of the cerebellopontine angle: Case report and literature review
<p>Abstract</p> <p>Background</p> <p>Cavernous malformations (CMs) in the cerebellopontine angle (CPA) are rare, and most of such CMs reported to date are solid and extend from the internal auditory canal into the CPA. In contrast, cystic CMs that arise in the CPA and do not involve the internal auditory canal and dura of the skull base are extremely rare.</p> <p>Case presentation</p> <p>A 50-year-old man presented with vertigo and progressive hearing loss in the right ear. MRI examination revealed a lesion in the CPA with solid and cystic components. Surgery was performed. Well-circumscribed adhesion to cranial nerves, the cerebellum, or the brain stem was noted during surgery. The lesion was totally resected. Pathological examination suggested the lesion to be a CM. At 1-year follow-up, the symptoms at presentation had resolved and no complications had occurred.</p> <p>Conclusion</p> <p>Although cystic CMs of the CPA have no established imaging features, a diagnosis of CMs may be suspected when a cystic lesion is present in the CPA and does not involve internal acoustic meatus or dura mater of the skull base. Skillful microsurgical techniques and monitoring of cranial nerves will secure good outcomes for patients with cystic CMs in the CPA.</p
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