17,014 research outputs found

    Spin Wave Theory of Spin 1/2 XY Model with Ring Exchange on a Triangular Lattice

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    We present the linear spin wave theory calculation of the superfluid phase of a hard-core boson JJ-KK model with nearest neighbour exchange JJ and four-particle ring-exchange KK at half filling on the triangular lattice, as well as the phase diagrams of the system at zero and finite temperatures. We find that the pure JJ model (XY model) which has a well known uniform superfluid phase with an ordered parameter Mx=≠0M_x=\neq 0 at zero temperature is quickly destroyed by the inclusion of a negative-KK ring-exchange interactions, favouring a state with a (4π3,0)(\frac{4\pi}{3}, 0) ordering wavevector. We further study the behaviour of the finite-temperature Kosterlitz-Thouless phase transition (TKTT_{KT}) in the uniform superfluid phase, by forcing the universal quantum jump condition on the finite-temperature spin wave superfluid density. We find that for K \textless 0, the phase boundary monotonically decreases to T=0 at K/J=−4/3K/J = -4/3, where a phase transition is expected and TKTT_{KT} decreases rapidly while for positive KK, TKTT_{KT} reaches a maximum at some K≠0K\neq 0. It has been shown on a square lattice using quantum Monte Carlo(QMC) simulations that for small K\textgreater 0 away from the XY point, the zero-temperature spin stiffness value of the XY model is decreased\cite{F}. Our result seems to agree with this trend found in QMC simulations

    Combinatorial coherent states via normal ordering of bosons

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    We construct and analyze a family of coherent states built on sequences of integers originating from the solution of the boson normal ordering problem. These sequences generalize the conventional combinatorial Bell numbers and are shown to be moments of positive functions. Consequently, the resulting coherent states automatically satisfy the resolution of unity condition. In addition they display such non-classical fluctuation properties as super-Poissonian statistics and squeezing.Comment: 12 pages, 7 figures. 20 references. To be published in Letters in Mathematical Physic

    Generalized Bargmann functions, their growth and von Neumann lattices

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    Generalized Bargmann representations which are based on generalized coherent states are considered. The growth of the corresponding analytic functions in the complex plane is studied. Results about the overcompleteness or undercompleteness of discrete sets of these generalized coherent states are given. Several examples are discussed in detail.Comment: 9 pages, changes with respect to previous version: typos removed, improved presentatio

    Combinatorial Physics, Normal Order and Model Feynman Graphs

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    The general normal ordering problem for boson strings is a combinatorial problem. In this note we restrict ourselves to single-mode boson monomials. This problem leads to elegant generalisations of well-known combinatorial numbers, such as Bell and Stirling numbers. We explicitly give the generating functions for some classes of these numbers. Finally we show that a graphical representation of these combinatorial numbers leads to sets of model field theories, for which the graphs may be interpreted as Feynman diagrams corresponding to the bosons of the theory. The generating functions are the generators of the classes of Feynman diagrams.Comment: 9 pages, 4 figures. 12 references. Presented at the Symposium 'Symmetries in Science XIII', Bregenz, Austria, 200

    Coherent pairing states for the Hubbard model

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    We consider the Hubbard model and its extensions on bipartite lattices. We define a dynamical group based on the η\eta-pairing operators introduced by C.N.Yang, and define coherent pairing states, which are combinations of eigenfunctions of η\eta-operators. These states permit exact calculations of numerous physical properties of the system, including energy, various fluctuations and correlation functions, including pairing ODLRO to all orders. This approach is complementary to BCS, in that these are superconducting coherent states associated with the exact model, although they are not eigenstates of the Hamiltonian.Comment: 5 pages, RevTe

    Carrier extraction circuit

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    Feedback loop extracts demodulated reference signals from IF input and feeds signal back to demodulator. Since reference signal is extracted directly from carrier, no separate reference need be transmitted. Circuit obtains coherent carrier from balanced or unbalanced four-phase signal of varying characteristics

    A product formula and combinatorial field theory

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    We treat the problem of normally ordering expressions involving the standard boson operators a, ay where [a; ay] = 1. We show that a simple product formula for formal power series | essentially an extension of the Taylor expansion | leads to a double exponential formula which enables a powerful graphical description of the generating functions of the combinatorial sequences associated with such functions | in essence, a combinatorial eld theory. We apply these techniques to some examples related to specic physical Hamiltonians

    Hopf Algebras in General and in Combinatorial Physics: a practical introduction

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    This tutorial is intended to give an accessible introduction to Hopf algebras. The mathematical context is that of representation theory, and we also illustrate the structures with examples taken from combinatorics and quantum physics, showing that in this latter case the axioms of Hopf algebra arise naturally. The text contains many exercises, some taken from physics, aimed at expanding and exemplifying the concepts introduced
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