• 分類 理論セミナー
  • 開始 2017/09/19(火)11:00
  • 終了 2017/09/19(火)12:00
  • 会場  Kenkyu-Honkan 1F, Meeting Room 1
  • 講演タイトル Relativistic hydrodynamics from quantum field theory
  • 講演者 Dr.本郷 優/ (RIKEN)
  • 言語 英語/English
  • 連絡先 須山 孝夫/
  • ウェブサイト
  • 食堂・売店 利用予定なし/0


Hydrodynamics is a low-energy effective theory which describes a
long-distance and long-time behavior of many-body systems. It is
not only to a non-relativistic weakly-interacting dilute gas but also a
relativistic strongly-interacting dense liquid such as the quark-gluon
plasma created in ultra relativistic heavy-ion collision experiments.
Although relativistic hydrodynamics itself is well-established formalism,
its foundation from underlying microscopic theories, or quantum field
theories, remains unclear. In this study, based on the recent
of non-equilibrium statistical mechanics, we provide the field-
derivation of the relativistic Navier-Stokes equation [1]. We show that
procedure to derive hydrodynamic equations is similar to the so-called
renormalized/optimized perturbation theory. Furthermore, we give a
path-integral formula for local thermal equilibrium which results in the
emergence of thermally induced curved spacetime [2]. Based on these
results, we perform the derivative expansion and derive the first-order
hydrodynamic equation (the Navier-Stokes equation) with the Green-Kubo
formulas for transport coefficients.

[1] T. Hayata, Y. Hidaka, M. Hongo, and T. Noumi, Phys. Rev. D 92,
[1] M. Hongo, Annals of Physics, 383, 1 (2017)