131,195 research outputs found

    A generalization of contact metric manifolds

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    We give a characterization of a contact metric manifold as a special almost contact metric manifold and discuss an almost contact metric manifold which is {a} natural generalization of the contact metric manifolds introduced by Y. Tashiro.Comment: 15 page

    A proof of the Chern-Gauss-Bonnet theorem for indefinite signature metrics using analytic continuation

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    We derive the Chern-Gauss-Bonnet Theorem for manifolds with smooth non-degenerate boundary in the pseudo-Riemannian context from the corresponding result in the Riemannian setting by examining the Euler-Lagrange equations associated to the Pfaffian of a complex "metric" on the tangent space and then applying analytic continuation.Comment: This paper has been withdrawn by the authors. A later improved version is available upon request from the authors but will not be posted to the arXi

    Nanoscale Topographical Replication of Graphene Architecture by Artificial DNA nanostructures

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    Despite many studies on how geometry can be used to control the electronic properties of graphene, certain limitations to fabrication of designed graphene nanostructures exist. Here, we demonstrate controlled topographical replication of graphene by artificial deoxyribonucleic acid (DNA) nanostructures. Owing to the high degree of geometrical freedom of DNA nanostructures, we controlled the nanoscale topography of graphene. The topography of graphene replicated from DNA nanostructures showed enhanced thermal stability and revealed an interesting negative temperature coefficient of sheet resistivity when underlying DNA nanostructures were denatured at high temperatures.Comment: 12 pages, 3 figure

    Strong Confinement and Oscillations in Two-Component Bose-Einstein Condensates

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    We present a new model of BEC dynamics based on strong confinement near the ground state. The model predicts oscillations in a two-component condensate, based on interference of non-spreading wave packets moving within a pair of tilted nearly square potentials. The oscillations are similar to those recently reported for a magnetically trapped 87^{87}Rb condensate, and the model's predictions give good quantitative agreement with the experiments.Comment: 4 pages, 8 figure

    Correction to "minimal unit vector fields"

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    The paper "Minimal unit vector fields" by O. Gil-Medrano and E. Llinares-Fuster \cite{GilLli1}. is a seminal paper in the field that has been cited by many authors. It contains, however, a minor technical mistake in Theorem 14 that is important to fix. In this short note, we will provide a correction to that result.Comment: 8page

    Fabrication of Analog Electronics for Serial Readout of Silicon Strip Sensors

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    A set of analog electronics boards for serial readout of silicon strip sensors was fabricated. A commercially available amplifier is mounted on a homemade hybrid board in order to receive analog signals from silicon strip sensors. Also, another homemade circuit board is fabricated in order to translate amplifier control signals into a suitable format and to provide bias voltage to the amplifier as well as to the silicon sensors. We discuss technical details of the fabrication process and performance of the circuit boards we developed.Comment: minor typos corrected, and additional acknowledgement included. To be submitted to JINS

    Complex sine-Gordon Theory for Coherent Optical Pulse Propagation

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    It is shown that the McCall-Hahn theory of self-induced transparency in coherent optical pulse propagation can be identified with the complex sine-Gordon theory in the sharp line limit. We reformulate the theory in terms of the deformed gauged Wess-Zumino-Witten sigma model and address various new aspects of self-induced transparency.Comment: 8 pages, in Late

    Nonabelian sine-Gordon theory and its application to nonlinear optics

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    Using a field theory generalization of the spinning top motion, we construct nonabelian generalizations of the sine-Gordon theory according to each symmetric spaces. A Lagrangian formulation of these generalized sine-Gordon theories is given in terms of a deformed gauged Wess-Zumino-Witten action which also accounts for integrably perturbed coset conformal field theories. As for physical applications, we show that they become precisely the effective field theories of self-induced transparency in nonlinear optics. This provides a dictionary between field theory and nonlinear optics.Comment: 5 pages, to appear in the Proceedings of the 2nd Sakharov Conference on Physics, Moscow, May, 199

    Complex sine-Gordon Equation in Coherent Optical Pulse Propagation

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    It is shown that the McCall-Hahn theory of self-induced transparency in coherent optical pulse propagation can be identified with the complex sine-Gordon theory in the sharp line limit. We reformulate the theory in terms of the deformed gauged Wess-Zumino-Witten sigma model and address various new aspects of self-induced transparency

    Effective Field Theory for Coherent Optical Pulse Propagation

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    Hidden nonabelian symmetries in nonlinear interactions of radiation with matter are clarified. In terms of a nonabelian potential variable, we construct an effective field theory of self-induced transparency, a phenomenon of lossless coherent pulse propagation, in association with Hermitian symmetric spaces G/HG/H. Various new properties of self-induced transparency, e.g. soliton numbers, effective potential energy, gauge symmetry and discrete symmetries, modified pulse area, conserved U(1)U(1)-charge etc. are addressed and elaborated in the nondegenerate two-level case where G/H=SU(2)/U(1)G/H = SU(2)/U(1). Using the U(1)U(1)-charge conservation, a new type of analysis on pulse stability is given which agrees with earlier numerical results.Comment: 41 pages, Latex fil
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