334 research outputs found
Intrinsic beam shaping mechanism in spatially modulated broad area semiconductor amplifiers
Postprint (published version
Filamentation processes and dynamical excitation of light condensates in optical media with competing nonlinearities
We analyze both theoretically and by means of numerical simulations the
phenomena of filamentation and dynamical formation of self-guided nonlinear
waves in media featuring competing cubic and quintic nonlinearities. We provide
a theoretical description of recent experiments in terms of a linear stability
analysis supported with simulations, showing the possibility of experimental
observation of the modulational instability suppression of intense light pulses
travelling across such nonlinear media. We also show a novel mechanism of
indirect excitation of {\em light condensates} by means of coalescence
processes of nonlinear coherent structures produced by managed filamentation of
high power laser beams.Comment: 6 pages, 4 figure
Characteristics of silent countingin synchronized swimmers
This article describes the temporal characteristics of silent counting as used duringa competition by the Russian youth team of synchronized swimmers. Theathletes listened to the music that accompanied their performance at the competition.Diff erent indices of silent counting were defi ned, such as the beginningand cessation of diff erent periods of counting, counting frequency, the stabilityof the temporal structure of silent counting, the degree of synchronization of silentcounting at diff erent moments during the sports program. We studied therelationship of these characteristics of counting with expert estimates of the athletes’sense of tempo, coordination of movements, and choreographic abilities
Modulational instability in nonlocal Kerr-type media with random parameters
Modulational instability of continuous waves in nonlocal focusing and
defocusing Kerr media with stochastically varying diffraction (dispersion) and
nonlinearity coefficients is studied both analytically and numerically. It is
shown that nonlocality with the sign-definite Fourier images of the medium
response functions suppresses considerably the growth rate peak and bandwidth
of instability caused by stochasticity. Contrary, nonlocality can enhance
modulational instability growth for a response function with negative-sign
bands.Comment: 6 pages, 12 figures, revTeX, to appear in Phys. Rev.
Pattern generation by dissipative parametric instability
Nonlinear instabilities are responsible for spontaneous pattern formation in a vast number of natural and engineered systems, ranging from biology to galaxy buildup. We propose a new instability mechanism leading to pattern formation in spatially extended nonlinear systems, which is based on a periodic antiphase modulation of spectrally dependent losses arranged in a zigzag way: an effective filtering is imposed at symmetrically located wave numbers k and -k in alternating order. The properties of the dissipative parametric instability differ from the features of both key classical concepts of modulation instabilities, i.e., the Benjamin-Feir instability and the Faraday instabiltyity. We demonstrate how the dissipative parametric instability can lead to the formation of stable patterns in one- and two-dimensional systems. The proposed instability mechanism is generic and can naturally occur or can be implemented in various physical systems
Two dimensional modulational instability in photorefractive media
We study theoretically and experimentally the modulational instability of
broad optical beams in photorefractive nonlinear media. We demonstrate the
impact of the anisotropy of the nonlinearity on the growth rate of periodic
perturbations. Our findings are confirmed by experimental measurements in a
strontium barium niobate photorefractive crystal.Comment: 8 figure
Development of encapsulated extracts on the basis of meadowsweet (Filipendula ulmaria) in the composition of functional foods with oncoprotective properties
ArticleMeadowsweet (Filipendula ulmaria) is a quite common plant throughout the European
countries, including Russia. Therapeutic and prophylactic properties of the meadowsweet are
mainly associated with the action of biologically active substances (BAS), in particularly tannins,
phenolic compounds, phenolcarboxylic acids, catechins, flavonoids, essential oils etc. The main
substances with proven clinical effects are salicylates and flavonoids, what allows to consider
meadowsweet as an anti-inflammatory, immunostimulating, antioxidant, hepatoprotective,
nootropic, adaptogenic and antihypoxic agent.
The aim of this study was to analyze the content of BAS in water and 70% ethyl alcohol extract
of F. ulmaria flowers from different regions of Russia and develop their encapsulated forms for
further use as an ingredient for functional food products.
To increase the shelf life of meadowsweet extracts and create a stable form for their delivery to
the human body with various food products, encapsulated forms of extracts in the form of microand nanosized capsules were developed. The method of encapsulation was carried out using a
spray dryer. It was shown that encapsulated meadowsweet BAS can be added to a chicken pate
without negative effect on the organoleptic properties of the finished product. The calculation of
the cost of the meat product with the complex functional dry mixture showed a slight increase in
the cost of the final product compared to the traditional analogue. This study shows that
encapsulated meadowsweet BAS can be used for inclusion in various food products, to ensure
the functional properties of food and optimize the population's rations
Modulational instability and nonlocality management in coupled NLS system
The modulational instability of two interacting waves in a nonlocal Kerr-type
medium is considered analytically and numerically. For a generic choice of wave
amplitudes, we give a complete description of stable/unstable regimes for zero
group-velocity mismatch. It is shown that nonlocality suppresses considerably
the growth rate and bandwidth of instability. For nonzero group-velocity
mismatch we perform a geometrical analysis of a nonlocality management which
can provide stability of waves otherwise unstable in a local medium.Comment: 15 pages, 12 figures, to be published in Physica Script
Laser beam filamentation in fractal aggregates
We investigate filamentation of a cw laser beam in soft matter such as
colloidal suspensions and fractal gels. The process, driven by
electrostriction, is strongly affected by material properties, which are taken
into account via the static structure factor, and have impact on the statistics
of the light filaments.Comment: 4 pages, 5 figures. Revised version with corrected figure 5. To be
published in Phys. Rev. Let
Discrete instability in nonlinear lattices
The discrete multiscale analysis for boundary value problems in nonlinear
discrete systems leads to a first order discrete modulational instability above
a threshold amplitude for wave numbers beyond the zero of group velocity
dispersion. Applied to the electrical lattice [Phys. Rev. E, 51 (1995) 6127 ],
this acurately explains the experimental instability at wave numbers beyond
1.25 . The theory is also briefly discussed for sine-Gordon and Toda lattices.Comment: 1 figure, revtex, published: Phys. Rev. Lett. 83 (1999) 232
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