59 research outputs found
Laser-driven pointed acceleration of electrons with preformed plasma lens
The simultaneous laser-driven acceleration and angular manipulation of the
fast electron beam is experimentally demonstrated. The bunch of multi-MeV
energy charged particles is generated during the propagation of the femtosecond
laser pulse through the near-critical plasma slab accompanied by plasma
channeling. Plasma is formed by the controlled breakdown of a thin-tape target
by a powerful nanosecond prepulse. The electron beam pointing approach is based
on the refraction of a laser pulse in the presence of a strong radial density
gradient in the breakdown of the tape with a small displacement of the
femtosecond laser beam relative to the breakdown symmetry axis. A shift of
several micrometers makes it possible to achieve beam deflection by an angle up
to 10 degrees with acceptable beam charge and spectrum conservation. This opens
up opportunities for in-situ applications for scanning objects with an electron
beam and the multistage electron beam energy gain in consecutive laser
accelerators without bulk magnetic optics for particles. Experimental findings
are supported by numerical Particle-In-Cell calculations of laser-plasma
acceleration and hydrodynamic simulations.Comment: Submitted to PPC
Low loss volume modes in a lamellar hyperbolic metamaterial slab
We have studied, both theoretically and experimentally, the excitation of volume modes in a lamellar metal/dielectric metamaterial with hyperbolic dispersion. The highly efficient light penetration through tens of metamaterial layers is consistent with a relatively low propagation loss. The volume modes were found to be highly sensitive to the surface roughness of the layers, which can be a detrimental factor in device applications.ITMO University; Australian Research Council;
Australian National Fabrication Facility; National Science
Foundation (1646789, 1830886, 1856515); U.S. Department
of Defense (W911nf1810472); Air Force Office of Scientific
Research (FA9550-18-1-0417)
Energy fluctuations in a biharmonically driven nonlinear system
We study the fluctuations of work done and dissipated heat of a Brownian
particle in a symmetric double well system. The system is driven by two
periodic input signals that rock the potential simultaneously. Confinement in
one preferred well can be achieved by modulating the relative phase between the
drives. We show that in the presence of pumping the stochastic resonance signal
is enhanced when analyzed in terms of the average work done on the system per
cycle. This is in contrast to the case when pumping is achieved by applying an
external static bias, which degrades resonance. We analyze the nature of work
and heat fluctuations and show that the steady state fluctuation theorem holds
in this system.Comment: 13 pages, 14 figures, revised manuscrip
Carvacrol, a Food-Additive, Provides Neuroprotection on Focal Cerebral Ischemia/Reperfusion Injury in Mice
Carvacrol (CAR), a naturally occurring monoterpenic phenol and food additive, has been shown to have antimicrobials, antitumor, and antidepressant-like activities. A previous study demonstrated that CAR has the ability to protect liver against ischemia/reperfusion injury in rats. In this study, we investigated the protective effects of CAR on cerebral ischemia/reperfusion injury in a middle cerebral artery occlusion mouse model. We found that CAR (50 mg/kg) significantly reduced infarct volume and improved neurological deficits after 75 min of ischemia and 24 h of reperfusion. This neuroprotection was in a dose-dependent manner. Post-treatment with CAR still provided protection on infarct volume when it was administered intraperitoneally at 2 h after reperfusion; however, intracerebroventricular post-treatment reduced infarct volume even when the mice were treated with CAR at 6 h after reperfusion. These findings indicated that CAR has an extended therapeutic window, but delivery strategies may affect the protective effects of CAR. Further, we found that CAR significantly decreased the level of cleaved caspase-3, a marker of apoptosis, suggesting the anti-apoptotic activity of CAR. Finally, our data indicated that CAR treatment increased the level of phosphorylated Akt and the neuroprotection of CAR was reversed by a PI3K inhibitor LY-294002, demonstrating the involvement of the PI3K/Akt pathway in the anti-apoptotic mechanisms of CAR. Due to its safety and wide use in the food industry, CAR is a promising agent to be translated into clinical trials
Formation of the dendritic domain structures in lithium niobate single crystals
Исследование роста дендритных доменных структур проведено в монокристаллах конгруэнтного ниобата лития (CLN) с искусственным диэлектрическим слоем при переключении поляризации при повышенных температурах. С помощью in situ визуализации проанализирована кинетика доменной структуры. Определены глубина и геометрические параметры сформированных доменных структур.The growth of dendritic domain structures was studied in congruent lithium niobate (CLN) single crystals during polarization reversal with artificial dielectric layer at elevated temperatures. Using in situ visualization domain structure kinetics was analyzed. The depth and geometric parameters of static domain structures was identified.В работе использовалось оборудование УЦКП "Современные нанотехнологии" УрФУ. Работа выполнена при финансовой поддержке Российского Научного Фонда (грант 14-12-00826)
Composition of Human Skin Microbiota Affects Attractiveness to Malaria Mosquitoes
The African malaria mosquito Anopheles gambiae sensu stricto continues to play an important role in malaria transmission, which is aggravated by its high degree of anthropophily, making it among the foremost vectors of this disease. In the current study we set out to unravel the strong association between this mosquito species and human beings, as it is determined by odorant cues derived from the human skin. Microbial communities on the skin play key roles in the production of human body odour. We demonstrate that the composition of the skin microbiota affects the degree of attractiveness of human beings to this mosquito species. Bacterial plate counts and 16S rRNA sequencing revealed that individuals that are highly attractive to An. gambiae s.s. have a significantly higher abundance, but lower diversity of bacteria on their skin than individuals that are poorly attractive. Bacterial genera that are correlated with the relative degree of attractiveness to mosquitoes were identified. The discovery of the connection between skin microbial populations and attractiveness to mosquitoes may lead to the development of new mosquito attractants and personalized methods for protection against vectors of malaria and other infectious diseases
Renormalization group flows and continual Lie algebras
We study the renormalization group flows of two-dimensional metrics in sigma
models and demonstrate that they provide a continual analogue of the Toda field
equations based on the infinite dimensional algebra G(d/dt;1). The resulting
Toda field equation is a non-linear generalization of the heat equation, which
is integrable in target space and shares the same dissipative properties in
time. We provide the general solution of the renormalization group flows in
terms of free fields, via Backlund transformations, and present some simple
examples that illustrate the validity of their formal power series expansion in
terms of algebraic data. We study in detail the sausage model that arises as
geometric deformation of the O(3) sigma model, and give a new interpretation to
its ultra-violet limit by gluing together two copies of Witten's
two-dimensional black hole in the asymptotic region. We also provide some new
solutions that describe the renormalization group flow of negatively curved
spaces in different patches, which look like a cane in the infra-red region.
Finally, we revisit the transition of a flat cone C/Z_n to the plane, as
another special solution, and note that tachyon condensation in closed string
theory exhibits a hidden relation to the infinite dimensional algebra G(d/dt;1)
in the regime of gravity. Its exponential growth holds the key for the
construction of conserved currents and their systematic interpretation in
string theory, but they still remain unknown.Comment: latex, 73pp including 14 eps fig
Light guiding and switching using eccentric core-shell geometries
High Refractive Index (HRI) dielectric nanoparticles have been proposed as an alternative to metallic ones due to their low absorption and magnetodielectric response in the VIS and NIR ranges. For the latter, important scattering directionality effects can be obtained. Also, systems constituted by dimers of HRI dielectric nanoparticles have shown to produce switching effects by playing with the polarization, frequency or intensity of the incident radiation. Here, we show that scattering directionality effects can be achieved with a single eccentric metallo-HRI dielectric core-shell nanoparticle. As an example, the effect of the metallic core displacements for a single Ag-Si core-shell nanoparticle has been analyzed. We report rotation of the main scattering lobe either clockwise or counterclockwise depending on the polarization of the incident radiation leading to new scattering configurations for switching purposes. Also, the efficiency of the scattering directionality can be enhanced. Finally, chains of these scattering units have shown good radiation guiding effects, and for 1D periodic arrays, redirection of diffracted intensity can be observed as a consequence of blazing effects. The proposed scattering units constitute new blocks for building systems for optical communications, solar energy harvesting devices and light guiding at the nanoscale level.This research was supported by MICINN (Spanish Ministry of Science and Innovation, project FIS2013-45854-P) and Fundación Iberdrola Espan~a, Call for Research on Energy and the Environment Grants. Á.I.B. and Y.G. want to express her gratitude to the University of Cantabria for their PhD grants
Wave scattering by metal-dielectric multilayer structures with gain
We study wave scattering by multilayer metal-dielectric structures of a finite extent characterized by a hyperbolic-like dispersion. We find the regimes of wave propagation when substantial compensation of losses becomes possible with the use of a gain medium with realistic parameters. We discuss the Purcell effect in these structures and its possible implications on the performance of the loss compensation.This work
was supported by the Ministry of Education and
Science of the Russian Federation (project
no. 11.G34.31.0020, state contract no. 2014/190,
contract no. 3.561.2014/K), by the Council for an
Increase in the Competitiveness of the Leading Uni
versities of the Russian Federation (project no. 074
U01), by the Dynasty Foundation (Russia), and by the
Australian Research Council (Future Fellowship and
Discovery Project Programs)
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