17,766 research outputs found
Experimental Study of Electrophoretic Deposited Carbon Nanotubes on Microstrip Transmission Line Resonators and Filters
The electrical properties of single-walled carbon nanotube electrophoreses deposition on different types of gold-plated microstrip devices are investigated. Simple transmission lines, transmission line resonators and filters were subjected to deposition of functionalized tubes in an aqueous solution. It is found that the process lowers the resonant frequency of the resonators and filters compared to the untreated devices, at the cost of increased insertion loss and reduced resonator Q-factor
Parallel String Sample Sort
We discuss how string sorting algorithms can be parallelized on modern
multi-core shared memory machines. As a synthesis of the best sequential string
sorting algorithms and successful parallel sorting algorithms for atomic
objects, we propose string sample sort. The algorithm makes effective use of
the memory hierarchy, uses additional word level parallelism, and largely
avoids branch mispredictions. Additionally, we parallelize variants of multikey
quicksort and radix sort that are also useful in certain situations.Comment: 34 pages, 7 figures and 12 table
Existence of Nearest Neighbor and Variable Range Hopping in PrZnMnO
A joint investigation of X-ray diffraction (XRD) pattern and Raman spectrum
authenticate the double phase monoclinic P21/n and cubic Fd-3m structures of
polycrystalline Pr2ZnMnO6 (PZM). The existence of two different conduction
mechanisms (Nearest neighbor hopping and Motts variable range hopping) is
observed using a combined study of conductivity, dielectric relaxation and
impedance spectra in PZM. This investigation point towards a transition from
nearest neighbor hoping to Motts variable range hopping mechanism due to
lowering activation energy around 580 K. The charge carriers hopping between
the localized acceptor states at the grain boundaries (GBs), which dominants
conduction mechanism below 580 K. The ac conductivity, dielectric relaxation,
Nyquist plot, and electric modulus highlight the blended effect of grains (Gs)
and GBs leads to the charge carrier dynamics in PZM. The dielectric relaxation
and modulus formalism are analyzed on the basis of empirical Cole-Cole model.
The conduction mechanism is found to be highly correlated with the relaxation
mechanism and impedance spectroscopy.Comment: 15 page
Spiral-wave Dynamics Depends Sensitively on nhomogeneities in Mathematical Models of Ventricular Tissue
Every sixth death in industrialised countries occurs because of cardiac
arrhythmias like ventricular tachycardia (VT) and ventricular fibrillation
(VF). There is growing consensus that VT is associated with an unbroken spiral
wave of electrical activation on cardiac tissue but VF with broken waves,
spiral turbulence, spatiotemporal chaos and rapid, irregular activation. Thus
spiral-wave activity in cardiac tissue has been studied extensively.
Nevertheless many aspects of such spiral dynamics remain elusive because of the
intrinsically high-dimensional nature of the cardiac-dynamical system. In
particular, the role of tissue heterogeneities in the stability of cardiac
spiral waves is still being investigated. Experiments with conduction blocks in
cardiac tissue yield a variety of results: some suggest that blocks can
eliminate VF partially or completely, leading to VT or quiescence, but others
show that VF is unaffected by obstacles. We propose theoretically that this
variety of results is a natural manifestation of a fractal boundary that must
separate the basins of the attractors associated, respectively, with VF and VT.
We substantiate this with extensive numerical studies of Panfilov and Luo-Rudy
I models, where we show that the suppression of VF depends sensitively on the
position, size, and nature of the inhomogeneity.Comment: 9 pages, 5 figures
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