1,527 research outputs found

    Mesoscopic and microscopic dipole clusters: Structure and phase transitions

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    Two dimensional (2D) classical system of dipole particles confined by a quadratic potential is studied. For clusters of N < 81 particles ground state configurations and appropriate eigenfrequencies and eigenvectors for the normal modes are found. Monte Carlo and molecular dynamic methods are used to study in detail the order - disorder transition (the "melting" of clusters). In mesoscopic clusters (N < 37) there is a hierarchy of transitions: at lower temperatures an intershell orientational disordering of pairs of shells takes place; at higher temperatures the intershell diffusion sets in and the shell structure disappears. In "macroscopic" clusters (N > 37) an orientational "melting" of only the outer shell is possible. The most stable clusters (having both maximal lowest nonzero eigenfrequencies and maximal temperatures of total melting) are that of completed crystal shells which are concentric groups of nodes of 2D hexagonal lattice with a number of nodes placed in the center of them. The study of different quantities shows that the melting temperature is a nonmonotonic function of the number of particles in the system. The dynamical equilibrium between "solidlike" and "orientationally disordered" forms of clusters is considered.Comment: 12 pages, 16 Postscript figures. Submitted to Phys. Rev.

    Bouncing off the walls : the influence of gas-kinetic and van der Waals effects in drop impact

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    A model is developed for liquid drop impact on a solid surface that captures the thin film gas flow beneath the drop, even when the film’s thickness is below the mean free path in the gas so that gas kinetic effects (GKE) are important. Simulation results agree with experiments, with the impact speed threshold between bouncing and wetting reproduced to within 5 least 50 mapped and provides experimentally verifiable predictions. There are two principal modes of contact leading to wetting and both are associated with a van der Waals driven instability of the film

    Phase diagram of 2D array of mesoscopic granules

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    A lattice boson model is used to study ordering phenomena in regular 2D array of superconductive mesoscopic granules, Josephson junctions or pores filled with a superfluid helium. Phase diagram of the system, when quantum fluctuations of both the phase and local superfluid density are essential, is analyzed both analytically and by quantum Monte Carlo technique. For the system of strongly interacting bosons it is found that as the boson density n0n_0 is increased the boundary of ordered superconducting state shifts to {\it lower temperatures} and at n0>8n_0 > 8 approaches its limiting position corresponding to negligible relative fluctuations of moduli of the order parameter (as in an array of "macroscopic" granules). In the region of weak quantum fluctuations of phases mesoscopic phenomena manifest themselves up to n010n_0 \sim 10. The mean field theory and functional integral 1/n01/n_0 - expansion results are shown to agree with that of quantum Monte Carlo calculations of the boson Hubbard model and its quasiclassical limit, the quantum XY model.Comment: 7 pages, 5 Postscript figure

    New model for system of mesoscopic Josephson contacts

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    Quantum fluctuations of the phases of the order parameter in 2D arrays of mesoscopic Josephson junctions and their effect on the destruction of superconductivity in the system are investigated by means of a quantum-cosine model that is free of the incorrect application of the phase operator. The proposed model employs trigonometric phase operators and makes it possible to study arrays of small superconducting granules, pores filled with superfluid helium, or Josephson junctions in which the average number of particles n0n_0 (effective bosons, He atoms, and so on) is small, and the standard approach employing the phase operator and the particle number operator as conjugate ones is inapplicable. There is a large difference in the phase diagrams between arrays of macroscopic and mesoscopic objects for n0<5n_0 < 5 and U<JU<J (UU is the characteristic interaction energy of the particle per granule and JJ is the Josephson coupling constant). Reentrant superconductivity phenomena are discussed.Comment: 4 pages, 3 Postscript figure

    Josephson array of mesoscopic objects. Modulation of system properties through the chemical potential

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    The phase diagram of a two-dimensional Josephson array of mesoscopic objects is examined. Quantum fluctuations in both the modulus and phase of the superconducting order parameter are taken into account within a lattice boson Hubbard model. Modulating the average occupation number n0n_0 of the sites in the system leads to changes in the state of the array, and the character of these changes depends significantly on the region of the phase diagram being examined. In the region where there are large quantum fluctuations in the phase of the superconducting order parameter, variation of the chemical potential causes oscillations with alternating superconducting (superfluid) and normal states of the array. On the other hand, in the region where the bosons interact weakly, the properties of the system depend monotonically on n0n_0. Lowering the temperature and increasing the particle interaction force lead to a reduction in the width of the region of variation in n0n_0 within which the system properties depend weakly on the average occupation number. The phase diagram of the array is obtained by mapping this quantum system onto a classical two-dimensional XY model with a renormalized Josephson coupling constant and is consistent with our quantum Path-Integral Monte Carlo calculations.Comment: 12 pages, 8 Postscript figure

    Обратные задачи в классе Q-полиномиальных графов

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    In the class of distance-regular graphs Γ of diameter 3 with a pseudogeometric graph Γ3, feasible intersection arrays for the partial geometry were found for networks by Makhnev, Golubyatnikov, and Guo; for dual networks by Belousov and Makhnev; and for generalized quadrangles by Makhnev and Nirova. These authors obtained four infinite series of feasible intersection arrays of distance-regular graphs: {c2(u2 − m2) + 2c2m − c2 − 1, c2(u2 − m2), (c2 − 1)(u2 − m2) + 2c2m − c2; 1, c2, u2 − m2}, {mt, (t + 1)(m − 1), t + 1; 1, 1, (m − 1)t} for m ≤ t, {lt, (t − 1)(l − 1), t + 1; 1, t − 1, (l − 1)t}, and {a(p + 1), ap, a + 1; 1, a, ap}. We find all feasible intersection arrays of Q-polynomial graphs from these series. In particular, we show that, among these infinite families of feasible arrays, only two arrays ({7, 6, 5; 1, 2, 3} (folded 7-cube) and {191, 156, 153; 1, 4, 39}) correspond to Q-polynomial graphs. © 2020 Sverre Raffnsoe. All rights reserved.This work was supported by the Russian Foundation for Basic Research – the National Natural Science Foundation of China (project no. 20-51-53013_a)

    Media Education Potential of Lipetsk Regional Journalism in Context of Media Convergence

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    The article discusses the media education potential of regional journalism. The relevance of the study is due to the need for mass media education as a necessary response to the challenges of the constantly saturated information and communication environment in which people live in the digital age, and the increased role of the media in this process. It is noted that media education activities of journalism are determined as a strategically important direction for the development of modern society. An overview of the state of print and online media, which are part of the Lipetsk newspaper publishing house, is presented from the point of view of their use of convergence achievements at the technological level of information presentation. The novelty of the study is seen in the proposed approach to assessing the media education potential of the regional publishing house as a whole, rather than its individual components. The authors note the problems of regional publications in mastering the possibilities of the internet space, which hinder the development of media education potential. It is proven that it is precisely the integration of new media into traditional formats of information presentation that significantly increases consumer interest in such sources, promotes the establishment of interactive relationships, and increases the media culture of the population. It is emphasized that a combination of classical work forms with multimedia capabilities creates a strong media education base for the media

    Shilla Graphs with B=5 and B=6

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    A Q-polynomial Shilla graph with b=5 has intersection arrays {105t,4(21t+1),16(t+1);1,4(t+1),84t}, t∈{3,4,19}. The paper proves that distance-regular graphs with these intersection arrays do not exist. Moreover, feasible intersection arrays of Q-polynomial Shilla graphs with b=6 are found.This work was supported by RFBR and NSFC (project № 20-51-53013)

    Tagging High Energy Photons in the H1 Detector at HERA

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    Measures taken to extend the acceptance of the H1 detector at HERA for photoproduction events are described. These will enable the measurement of electrons scattered in events in the high y range 0.85 < y < 0.95 in the 1998 and 1999 HERA run period. The improvement is achieved by the installation of an electromagnetic calorimeter, the ET8, in the HERA tunnel close to the electron beam line 8 m downstream of the H1 interaction point in the electron direction. The ET8 will allow the study of tagged gamma p interactions at centre-of-mass energies significantly higher than those previously attainable. The calorimeter design and expected performance are discussed, as are results obtained using a prototype placed as close as possible to the position of the ET8 during the 1996 and 1997 HERA running.Comment: 13 pages, 13 figure

    A New High Energy Photon Tagger for the H1 - Detector at HERA

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    The H1 detector at HERA has been upgraded by the addition of a new electromagnetic calorimeter. This is installed in the HERA tunnel close to the electron beam line at a position 8m from the interaction point in the electron beam direction. The new calorimeter extends the acceptance for tagged photoproduction events to the high y range, 0.85 < y < 0.95, and thus significantly improves the capability of H1 to study high energy gamma-p processes. The calorimeter design, performance and first results obtained during the 1996-1999 HERA running are described.Comment: 17 pages, 16 figure
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