80 research outputs found

    Origin of the second coherent peak in the dynamical structure factor of an asymmetric spin-ladder

    Full text link
    Appearance of the second coherent peak in the dynamical structure factor of an asymmetric spin ladder is suggested. The general arguments are confirmed by the first order (with respect to the asymmetry) calculation for a spin ladder with singlet-rung ground state. Basing on this result a new interpretation is proposed for the inelastic neutron scattering data in the spin gap compound CuHpCl.Comment: 11 page

    Electronic and transport properties of rectangular graphene macromolecules and zigzag carbon nanotubes of finite length

    Full text link
    We study one dimensional (1D) carbon ribbons with the armchair edges and the zigzag carbon nanotubes and their counterparts with finite length (0D) in the framework of the H\"{u}ckel model. We prove that a 1D carbon ribbon is metallic if its width (the number of carbon rings) is equal to 2+3n2+3n. We show that the dispersion law (electron band energy) of a 1D metallic ribbon or a 1D metallic carbon nanotube has a universal {\it sin-}like dependence at the Fermi energy which is independent of its width. We find that in case of metallic graphene ribbons of finite length (rectangular graphene macromolecules) or nanotubes of finite length the discrete energy spectrum in the vicinity of ε=0\varepsilon=0 (Fermi energy) can be obtained exactly by selecting levels from the same dispersion law. In case of a semiconducting graphene macromolecule or a semiconducting nanotube of finite length the positions of energy levels around the energy gap can be approximated with a good accuracy. The electron spectrum of 0D carbon structures often include additional states at energy ε=0\varepsilon=0, which are localized on zigzag edges and do not contribute to the volume conductivity.Comment: 6 pages, 5 figure

    Integrable boundary conditions for classical sine-Gordon theory

    Full text link
    The possible boundary conditions consistent with the integrability of the classical sine-Gordon equation are studied. A boundary value problem on the half-line x0x\leq 0 with local boundary condition at the origin is considered. The most general form of this boundary condition is found such that the problem be integrable. For the resulting system an infinite number of involutive integrals of motion exist. These integrals are calculated and one is identified as the Hamiltonian. The results found agree with some recent work of Ghoshal and Zamolodchikov.Comment: 10 pages, DTP/94-3

    The Zakharov-Shabat spectral problem on the semi-line: Hilbert formulation and applications

    Full text link
    The inverse spectral transform for the Zakharov-Shabat equation on the semi-line is reconsidered as a Hilbert problem. The boundary data induce an essential singularity at large k to one of the basic solutions. Then solving the inverse problem means solving a Hilbert problem with particular prescribed behavior. It is demonstrated that the direct and inverse problems are solved in a consistent way as soon as the spectral transform vanishes with 1/k at infinity in the whole upper half plane (where it may possess single poles) and is continuous and bounded on the real k-axis. The method is applied to stimulated Raman scattering and sine-Gordon (light cone) for which it is demonstrated that time evolution conserves the properties of the spectral transform.Comment: LaTex file, 1 figure, submitted to J. Phys.

    Experimental Substantiation of New Presentation Form of Cholera Diagnostic Sera

    Get PDF
    Objective of the study is experimental substantiation of possibility to produce new presentation form of cholera diagnostic sera – lyophilizate in bottles. Materials and methods. Cholera diagnostic sera. Liophylization was performed in Martin Christ Epsilon 2-6D. Residual moisture of dry sera was determined using humidity meter Sartorius MA 150. Solubility of experimental samples was assessed visually. pH was evaluated by potentiometry with the help of PK SevenExcellence-475 Mettler Toledo device, measuring pH/ORP/Ion content/conductivity/concentration. Specific activity and specificity was analyzed through expanded agglutination reaction, using relevant control strains of cholera vibrio. Results and conclusions. Experimentally justified is the possibility to lyophilize cholera diagnostic sera in flasks. Specified are the optimum parameters of lyophilization. It is determined that lyophilization does not result in deterioration of properties, as judging by the quality indicators they meet the requirements of regulatory documentation. Using accelerated aging test, it is demonstrated that the new presentation form of cholera diagnostic sera – lyophilizate in flasks – maintains their specific activity within five years term (the set out shelf life), which fully conform to normative standards

    Radiotechnical properties of metallized fabrics

    No full text
    A number of electromagnetic field shielding materials based on metallized fabric have been produced and investigated. High screening coefficient of the fabrics samples under testing in the frequency range 1×1–2…1×104MHz shown that these materials can be used in applications where fabric-based high conductivity materials are necessary – design of radioelectronic equipment, radio shielded rooms and anechoic chambers, information safeguard problems, ecology tasks, protection of the personnel against high frequency radiations, etc. Ni-metallized fabrics of different type (polyamide, polyester, silica, glass, cotton and mixed) have been investigated in a frequency range 1 MHz … 1.25 GHz. A protective radio shielding individual set has been designed using some of these metallized materials

    Shielding and absorbing materials for the equipment of the measuring radioengineering complexes

    No full text
    The research-and-production enterprise "Radiosrtim Ltd" develops and masters in manufacturing a vast nomenclature of materials and designs able to interact actively with electromagnetic radiation (EMR) in wide bandwidths between the 3 mm and 3 m bands. Among these products there are EMR-shielding classes of materials and fabrics as well as EMR-absorbing materials and absorbers. Wherein there is a valid mixture regarding the experience in traditional approaches to creating materials and designs interacting with EMR and in principally new ones based on the latest achievements in materials science and materials processing technology. Most of the materials have certifications and are in serial production. A number of such-like new materials of world-level are being worked at now
    corecore