Kyungpook Mathematical Journal

Department of Mathematics, Kyungpook National University (경북대학교 자연과학대학 수학과)
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Vortex Filament Equation and Non-linear Schrödinger Equation in S3

  • Zhang, Hongning (Department of Mathematics, School of Science, Beijing Jiaotong University) ;
  • Wu, Faen (Department of Mathematics, School of Science, Beijing Jiaotong University)
  • Received : 2006.03.22
  • Published : 2007.09.23
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Abstract

In 1906, da Rios, a student of Leivi-Civita, wrote a master's thesis modeling the motion of a vortex in a viscous fluid by the motion of a curve propagating in $R^3$, in the direction of its binormal with a speed equal to its curvature. Much later, in 1971 Hasimoto showed the equivalence of this system with the non-linear Schr$\ddot{o}$dinger equation (NLS) $$q_t=i(q_{ss}+\frac{1}{2}{\mid}q{\mid}^2q$$. In this paper, we use the same idea as Terng used in her lecture notes but different technique to extend the above relation to the case of $R^3$, and obtained an analogous equation that $$q_t=i[q_{ss}+(\frac{1}{2}{\mid}q{\mid}^2+1)q]$$.

Keywords

References

  1. Chuu-Lian Terng, Lecture 1 Peking University summer school, 2005.
  2. M. do Carmo, Riemannian Geometry, Birkhauser, Boston, 1992.
  3. M. Spivak, A Comprehensive Introduction to Differential Geometry, Vol. IV, Publish or Perish, 1979.
  4. W. Chen and S. S Chern, Lecture Notes On Differential Geometry Peking University press, 2004.
  5. H. Hasimoto, A soliton on a vortex filament, J. Fluid Mech., 51(1972), 477-485. https://doi.org/10.1017/S0022112072002307
  6. Da Rios, L. S., On the motion of an unbounded fluid flow with an isolated vortex filament, (in Italian), Rend. Circ. Mat. Palermo, 22(1906), 117. https://doi.org/10.1007/BF03018608