Schrodinger:septic NLS

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Septic NLS on

  • Scaling is sc = 1/6.
  • LWP is known for s ³ sc references:CaWe1990 CaWe1990.
    • For s=sc the time of existence depends on the profile of the data as well as the norm.
    • For s<s_c we have ill-posedness, indeed the H^s norm can get arbitrarily large arbitrarily quickly [CtCoTa-p2]. In the focusing case we have instantaneous blowup from the virial identity and scaling.
  • GWP for s ³ 1 by Hamiltonian conservation.


Septic NLS on

  • Scaling is sc = 2/3.
  • LWP is known for s ³ sc references:CaWe1990 CaWe1990.
    • For s=sc the time of existence depends on the profile of the data as well as the norm.
    • For s<s_c we have ill-posedness, indeed the H^s norm can get arbitrarily large arbitrarily quickly [CtCoTa-p2]. In the focusing case we have instantaneous blowup from the virial identity and scaling.
  • GWP for s ³ 1 by Hamiltonian conservation.


Septic NLS on

  • Scaling is sc = 7/6.
  • LWP is known for s ³ sc references:CaWe1990 CaWe1990.
    • For s=sc the time of existence depends on the profile of the data as well as the norm.
    • For s<s_c we have ill-posedness, indeed the H^s norm can get arbitrarily large arbitrarily quickly [CtCoTa-p2]. In the focusing case we have instantaneous blowup from the virial identity and scaling.
  • GWP and scattering for small data by Strichartz estimates references:CaWe1990 CaWe1990.
    • For large data one has blowup in the focusing case by the virial identity; in particular one has ill-posedness in the energy space.
    • It is not known (and would be extremely interesting to find out!) what is going on in the defocusing case; for instance, is there blowup from smooth data? Even for radial data nothing seems to be known. This may be viewed as an extremely simplified model problem for the global regularity issue for Navier-Stokes.