10,599 research outputs found
Characterization of GaN Nanorods Fabricated Using Ni Nanomasking and Reactive Ion Etching: A Top-Down Approach
Large thermal mismatch between GaN surface and sapphire results in compressive stress in Gallium Nitride (GaN) layer which degrades the device performance. Nanostructuring the GaN can reduce this stress leading to reduction in Quantum Confined Stark Effect. Aligned GaN nanorods based nanodevices have potential applications in electronics and optoelectronics. This paper describes the fabrication of GaN nanorods using Ni nanomasking and reactive ion etching. The morphology of GaN nanorods was studied by field emission scanning electron microscopy. The optical properties of GaN nanorods were studied by Cathodoluminescence (CL) spectroscopy. CL results revealed the existence of characteristic band-edge luminescence and yellow band luminescence.
When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/3099
Relativistic Landau Levels in the Rotating Cosmic String Spacetime
In the spacetime induced by a rotating cosmic string we compute the energy
levels of a massive spinless particle coupled covariantly to a homogeneous
magnetic field parallel to the string. Afterwards, we consider the addition of
a scalar potential with a Coulomb-type and a linear confining term and
completely solve the Klein-Gordon equations for each configuration. Finally,
assuming rigid-wall boundary conditions, we find the Landau levels when the
linear defect is itself magnetized. Remarkably, our analysis reveals that the
Landau quantization occurs even in the absence of gauge fields provided the
string is endowed with spin.Comment: Writing and grammar revised. References added. 14 pages, no figures.
To appear in European Phys. J.
Mapping out the time-evolution of exoplanet processes
There are many competing theories and models describing the formation,
migration and evolution of exoplanet systems. As both the precision with which
we can characterize exoplanets and their host stars, and the number of systems
for which we can make such a characterization increase, we begin to see
pathways forward for validating these theories. In this white paper we identify
predicted, observable correlations that are accessible in the near future,
particularly trends in exoplanet populations, radii, orbits and atmospheres
with host star age. By compiling a statistically significant sample of
well-characterized exoplanets with precisely measured ages, we should be able
to begin identifying the dominant processes governing the time-evolution of
exoplanet systems.Comment: Astro2020 white pape
Nonlinearity-induced conformational instability and dynamics of biopolymers
We propose a simple phenomenological model for describing the conformational
dynamics of biopolymers via the nonlinearity-induced buckling and collapse
(i.e. coiling up) instabilities. Taking into account the coupling between the
internal and mechanical degrees of freedom of a semiflexible biopolymer chain,
we show that self-trapped internal excitations (such as amide-I vibrations in
proteins, base-pair vibrations in DNA, or polarons in proteins) may produce the
buckling and collapse instabilities of an initially straight chain. These
instabilities remain latent in a straight infinitely long chain, because the
bending of such a chain would require an infinite energy. However, they
manifest themselves as soon as we consider more realistic cases and take into
account a finite length of the chain. In this case the nonlinear localized
modes may act as drivers giving impetus to the conformational dynamics of
biopolymers. The buckling instability is responsible, in particular, for the
large-amplitude localized bending waves which accompany the nonlinear modes
propagating along the chain. In the case of the collapse instability, the chain
folds into a compact three-dimensional coil. The viscous damping of the aqueous
environment only slows down the folding of the chain, but does not stop it even
for a large damping. We find that these effects are only weakly affected by the
peculiarities of the interaction potentials, and thus they should be generic
for different models of semiflexible chains carrying nonlinear localized
excitations.Comment: 4 pages (RevTeX) with 5 figures (EPS
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