Anomalous nonadditive dispersion interactions in systems of three one-dimensional wires

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抄録

The nonadditive dispersion contribution to the binding energy of three one-dimensional (1D) wires is investigated using wires modeled by (i) chains of hydrogen atoms and (ii) homogeneous electron gases. We demonstrate that the nonadditive dispersion contribution to the binding energy is significantly enhanced compared with that expected from Axilrod-Teller-Muto–type triple-dipole summations and follows a different power-law decay with separation. The triwire nonadditive dispersion for 1D electron gases scales according to the power law d^<−β>, where d is the wire separation, with exponents β(r_s) smaller than 3 and slightly increasing with rs from 2.4 at r_s=1 to 2.9 at r_s=10, where r_s is the density parameter of the 1D electron gas. This is in good agreement with the exponent β=3 suggested by the leading-order charge-flow contribution to the triwire nonadditivity, and is a significantly slower decay than the ∼d^<−7> behavior that would be expected from triple-dipole summations.

収録刊行物

  • Physical Review B

    Physical Review B 89(4), 045140-1-045140-9, 2014-01-29

    American Physical Society

各種コード

  • NII論文ID(NAID)
    120005447540
  • 本文言語コード
    ENG
  • 資料種別
    Journal Article
  • ISSN
    1098-0121
  • データ提供元
    IR 
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