Quartic NLS
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Quartic NLS on
- Scaling is .
- For any quartic non-linearity one can obtain LWP for CaWe1990
- Below we have ill-posedness by Gallilean invariance considerations in both the focusing [KnPoVe-p] and defocusing [CtCoTa-p2] cases.
- If the quartic non-linearity is of type then one can obtain LWP for For one has LWP for , while for the other three types , , or one has LWP for Gr-p2.
- In the Hamiltonian case (a non-linearity of type ) we have GWP for by conservation. In the other cases it is not clear whether there is any reasonable GWP result, except possibly for very small data.
Quartic NLS on
- For any quartic non-linearity one has LWP for Bo1993.
- If the quartic non-linearity is of type then one can obtain LWP for Failed to parse (syntax error): {\displaystyle s > -1/6\} , Gr-p2.
- If the nonlinearity is of type one has GWP for random data whose Fourier coefficients decay like (times a Gaussian random variable) Bo1995c. Indeed one has an invariant measure.
Quartic NLS on
- Scaling is
- For any quartic non-linearity one can obtain LWP for CaWe1990.
- For we have ill-posedness, indeed the norm can get arbitrarily large arbitrarily quickly [CtCoTa-p2]. In the focusing case we have instantaneous blowup from the virial identity and scaling.
- In the Hamiltonian case (a non-linearity of type ) we have GWP for Ka1986.
- This has been improved to in CoKeStTkTa2003c in the defocusing Hamiltonian case. This result can of course be improved further.
- Scattering in the energy space Na1999c in the defocusing Hamiltonian case.
- One also has GWP and scattering for small data for any quintic non-linearity.