1063/1.3573191]”
“The hole-mediated magnetism in Mn-doped GaN nanowires
is investigated using the k (.) p method and the mean-field model. The Curie temperature (T-C) as a function of the hole density p can be explained based on the calculated band structure of the nanowires. For low Mn concentration, T-C vs. p shows many peaks stem from the peaks of the one-dimensional density of states. When the Mn concentration is increased, T-C is enhanced, and the peaks of T-C versus p are fully merged by the thermal distribution of the holes in the valence band. It is found that the Curie temperature in Mn-doped GaN wire can be higher than room temperature, beta-catenin inhibitor in agreement with experiment [Song et al., J. Phys.: Condens. Matter 17, 5073 (2005)]. The ferromagnetism in Mn-doped GaN wire is slightly anisotropic due to the MG-132 nmr small spin-orbit coupling. (C) 2011 American Institute of Physics. [doi: 10.1063/1.3555092]“
“We have demonstrated both experimentally and theoretically that a tin-modified and niobium-modified lead zirconate titanate (Pb(Sn,Zr,Ti)O-3) ferroelectric
generator system can function as a micro-power supplying source for integrated circuit (IC) chip of separate nonelectric impulse input shock tube digital delay detonator. The ferroelectric ceramic phase transition under transverse shock wave compression can charge an external storage capacitor. The ferroelectric ceramic micro-pulsed-power system is capable of generating low output voltage pulses with an amplitude of 54.2 V and with transferred energy of 1.73 mJ, ultimately supplying an IC chip with micro-power. This work presents the
methodology for theoretical Vorasidenib mw analysis and experimental operation of the ferroelectric generator. Theoretical calculations are conducted based on circuit analysis law and principles of dynamic high pressure and shock wave physics. The experimental results were in good agreement with the theoretical analysis. VC 2011 American Institute of Physics. [doi: 10.1063/1.3569597]“
“Most pairwise and multiple sequence alignment programs seek alignments with optimal scores. Central to defining such scores is selecting a set of substitution scores for aligned amino acids or nucleotides. For local pairwise alignment, substitution scores are implicitly of log-odds form. We now extend the log-odds formalism to multiple alignments, using Bayesian methods to construct “”BILD” (“”Bayesian Integral Log-odds”) substitution scores from prior distributions describing columns of related letters. This approach has been used previously only to define scores for aligning individual sequences to sequence profiles, but it has much broader applicability. We describe how to calculate BILD scores efficiently, and illustrate their uses in Gibbs sampling optimization procedures, gapped alignment, and the construction of hidden Markov model profiles.