Linear Airy estimates: Difference between revisions

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** <span class="SpellE">D_x</span> u is in L^\<span class="SpellE">infty_x</span> L^2_t (sharp Kato smoothing effect) [[KnPoVe1993]]. Earlier versions of this estimate were obtained in [[Ka1979b]], [[KrFa1983]].
** <span class="SpellE">D_x</span> u is in L^\<span class="SpellE">infty_x</span> L^2_t (sharp Kato smoothing effect) [[KnPoVe1993]]. Earlier versions of this estimate were obtained in [[Ka1979b]], [[KrFa1983]].
** <span class="SpellE">D_x</span>^{-1/4} u is in L^4_x L^\<span class="SpellE">infty_t</span> (Maximal function) [[KnPoVe1993]], [[KnRu1983]]
** <span class="SpellE">D_x</span>^{-1/4} u is in L^4_x L^\<span class="SpellE">infty_t</span> (Maximal function) [[KnPoVe1993]], [[KnRu1983]]
** <span class="SpellE">D_x</span>^{-3/4-} u is in L^2_x L^\<span class="SpellE">infty_t</span> (L^2 maximal function) [[Bibliography#KnPoVe1993|KnPoVe1993]]
** <span class="SpellE">D_x</span>^{-3/4-} u is in L^2_x L^\<span class="SpellE">infty_t</span> (L^2 maximal function) [[KnPoVe1993]]
** ''Remark'': Further estimates are available by Sobolev, differentiation, Holder, and interpolation. For instance:
** ''Remark'': Further estimates are available by Sobolev, differentiation, Holder, and interpolation. For instance:
*** <span class="SpellE">D_x</span> u is in L^2_{<span class="SpellE">x,t</span>} locally in space [[Ka1979b]] - use Kato and Holder (can also be proven directly by integration by parts)
*** <span class="SpellE">D_x</span> u is in L^2_{<span class="SpellE">x,t</span>} locally in space [[Ka1979b]] - use Kato and Holder (can also be proven directly by integration by parts)

Latest revision as of 14:29, 10 August 2006

The following linear estimates for the Airy equation are known:

  • If on R, then
    • u (energy estimate)
    • D_x^{1/4} u is in L^4_t BMO_x (endpoint Strichartz) KnPoVe1993
    • D_x u is in L^\infty_x L^2_t (sharp Kato smoothing effect) KnPoVe1993. Earlier versions of this estimate were obtained in Ka1979b, KrFa1983.
    • D_x^{-1/4} u is in L^4_x L^\infty_t (Maximal function) KnPoVe1993, KnRu1983
    • D_x^{-3/4-} u is in L^2_x L^\infty_t (L^2 maximal function) KnPoVe1993
    • Remark: Further estimates are available by Sobolev, differentiation, Holder, and interpolation. For instance:
      • D_x u is in L^2_{x,t} locally in space Ka1979b - use Kato and Holder (can also be proven directly by integration by parts)
      • u is in L^2_{x,t} locally in time - use energy and Holder
      • D_x^{3/4-} u is in L^8_x L^2_t locally in time - interpolate previous with Kato
      • D_x^{1/6} u is in L^6_{x,t} - interpolate energy with endpoint Strichartz (or Kato with maximal)
      • D_x^{1/8} u is in L^8_t L^4_x - interpolate energy with endpoint Strichartz. (In particular, D_x^{1/8} u is also in L^4_{x,t}).
      • u is in L^8_{x,t}- use previous and Sobolev in space
      • If u is in X^{0,1/3+}, then u is in L^4_{x,t} Bo1993b - interpolate previous with the trivial identity X^{0,0} = L^2
      • If u is in X^{0,1/4+}, then D_x^{1/2} u is in L^4_x L^2_t Bo1993b - interpolate Kato with X^{0,0} = L^2
  • If u is in X^{0,1/2+} on T, then
    • u is in L^\infty_t L^2_x (energy estimate). This is also true in the large period limit.
    • u is in L^4_{x,t} locally in time (in fact one only needs u in X^{0,1/3} for this) Bo1993b.
    • D_x^{-\eps} u is in L^6_{x,t} locally in time. Bo1993b.
    • Remark: there is no smoothing on the circle, so one can never gain regularity.
  • If u is in X^{0,1/2} on a circle with large period \lambda, then
    • u is in L^4_{x,t} locally in time, with a bound of \lambda^{0+}.
      • In fact, when u has frequency N, the constant is like \lambda^{0+} (N^{-1/8} + \lambda^{-1/4}), which recovers the 1/8 smoothing effect on the line in L^4 mentioned earlier. CoKeStTkTa2003.

L^6 conjecture

It is conjectured that if u is a free L^2 solution to the Airy equation on , then is in for any . It is known that the claim holds if u is replaced by Bo1993b.

L^8 conjecture

It is conjectured that if u is a free L^2 solution to the Airy equation on , then is in for any . It is known that the epsilon cannot be completely removed Bo1993b.