38,635 research outputs found

    c=1 String as a Topological Model

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    The discrete states in the c=1c=1 string are shown to be the physical states of a certain topological sigma model. We define a set of new fields directly from c=1c=1 variables, in terms of which the BRST charge and energy-momentum tensor are rewritten as those of the topological sigma model. Remarkably, ground ring generator xx turns out to be a coordinate of the sigma model. All of the discrete states realize a graded ring which contains ground ring as a subset.Comment: 23 pages + 3 figures in PostScript, LaTeX, UT-Komaba/93-7. Description of the c=1c=1 physical spectrum in terms of topological model is improved. Some references and new figures added. (figures are available upon request.

    Crystal-field-induced magnetostrictions in the spin reorientation process of Nd2_2Fe14_{14}B-type compounds

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    Volume expansion ΔV/V\Delta V / V associated with the spin reorientation process of Nd2_2Fe14_{14}B-type compounds has been investigated in terms of simple crystalline-electric-field (CEF) model. In this system, ΔV/V\Delta V / V is shown to be a direct measure of second order CEF energy. Calculated anomalies in ΔV/V\Delta V / V associated with the first-order magnetization process of Nd2_2Fe14_{14}B are presented, which well reproduced the observations.Comment: 2 pages, 2 figures, to appear in J. Magn. Magn. Mate

    High efficiency dark-to-bright exciton conversion in carbon nanotubes

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    We report that dark excitons can have a large contribution to the emission intensity in carbon nanotubes due to an efficient exciton conversion from a dark state to a bright state. Time-resolved photoluminescence measurements are used to investigate decay dynamics and diffusion properties of excitons, and we obtain intrinsic lifetimes and diffusion lengths of bright excitons as well as diffusion coefficients for both bright and dark excitons. We find that the dark-to-bright transition rates can be considerably high, and that more than half of the dark excitons can be transformed into the bright excitons. The state transition rates have a large chirality dependence with a family pattern, and the conversion efficiency is found to be significantly enhanced by adsorbed air molecules on the surface of the nanotubes. Our findings show the nontrivial significance of the dark excitons on the emission kinetics in low dimensional materials, and demonstrate the potential for engineering the dark-to-bright conversion process by using surface interactions.Comment: 7 pages, 4 figure

    Effect of Ga+^{+} irradiation on magnetic and magnetotransport properties in (Ga,Mn)As epilayers

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    We report on the magnetic and magnetotransport properties of ferromagnetic semiconductor (Ga,Mn)As modified by Ga+^{+} ion irradiation using focused ion beam. A marked reduction in the conductivity and the Curie temperature is induced after the irradiation. Furthermore, an enhanced negative magnetoresistance (MR) and a change in the magnetization reversal process are also demonstrated at 4 K. Raman scattering spectra indicate a decrease in the concentration of hole carriers after the irradiation, and a possible origin of the change in the magnetic properties is discussed

    Ion Irradiation Control of Ferromagnetism in (Ga,Mn)As

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    We report on a promising approach to the artificial modification of ferromagnetic properties in (Ga,Mn)As using a Ga+^+ focused ion beam (FIB) technique. The ferromagnetic properties of (Ga,Mn)As such as magnetic anisotropy and Curie temperature can be controlled using Ga+^+ ion irradiation, originating from a change in hole concentration and the corresponding systematic variation in exchange interaction between Mn spins. This change in hole concentration is also verified using micro-Raman spectroscopy. We envisage that this approach offers a means of modifying the ferromagnetic properties of magnetic semiconductors on the micro- or nano-meter scale.Comment: 4 pages, 4 figures, to appear in Jpn. J. Appl. Phys. (Part 2 Letters
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