Airy estimates: Difference between revisions
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Solutions to the [[Airy equation]] and [[KdV equations|its perturbations]] are either estimated in mixed space-time norms <span class="SpellE">L^q_t</span> <span class="SpellE">L^r_x</span>, <span class="SpellE">L^r_x</span> <span class="SpellE">L^q_t</span>, or in X^ | Solutions to the [[Airy equation]] and [[KdV equations|its perturbations]] are either estimated in mixed space-time norms <span class="SpellE">L^q_t</span> <span class="SpellE">L^r_x</span>, <span class="SpellE">L^r_x</span> <span class="SpellE">L^q_t</span>, or in [[X^s,b spaces]], defined by | ||
<center><math>\| u \|_{X^{s,b}} = \| <\xi>^s <\tau-\xi^3>^b \hat{u}(\tau, \xi) \|_{L^2_{\tau, \xi}}.</math></center> | <center><math>\| u \|_{X^{s,b}} = \| <\xi>^s <\tau-\xi^3>^b \hat{u}(\tau, \xi) \|_{L^2_{\tau, \xi}}.</math></center> | ||
[[Linear Airy estimates|Linear space-time estimates]] in which the space norm is evaluated first are known as [[Strichartz estimates]], but these estimates only play a minor role in the theory. A more important category of linear estimates are the smoothing estimates and maximal function estimates. The X^{<span class="SpellE">s<span class="GramE">,b</span></span>} spaces are used primarily for [[bilinear Airy estimates]], although more recently [[multilinear Airy estimates]]. These spaces and estimates first appear in the context of the [[Schrodinger estimates|Schrodinger equation]] in [[ | [[Linear Airy estimates|Linear space-time estimates]] in which the space norm is evaluated first are known as [[Strichartz estimates]], but these estimates only play a minor role in the theory. A more important category of linear estimates are the smoothing estimates and maximal function estimates. The X^{<span class="SpellE">s<span class="GramE">,b</span></span>} spaces are used primarily for [[bilinear Airy estimates]], although more recently [[multilinear Airy estimates]]. These spaces and estimates first appear in the context of the [[Schrodinger estimates|Schrodinger equation]] in [[Bo1993b]], although the analogous spaces for the wave equation appeared earlier [[RaRe1982]], [[Be1983]] in the context of [[propagation of singularities]]. See also [[Bo1993]], [[KlMa1993]]. | ||
[[Category:Airy]] | |||
[[Category:Estimates]] | |||
Latest revision as of 19:58, 14 August 2006
Solutions to the Airy equation and its perturbations are either estimated in mixed space-time norms L^q_t L^r_x, L^r_x L^q_t, or in X^s,b spaces, defined by
Linear space-time estimates in which the space norm is evaluated first are known as Strichartz estimates, but these estimates only play a minor role in the theory. A more important category of linear estimates are the smoothing estimates and maximal function estimates. The X^{s,b} spaces are used primarily for bilinear Airy estimates, although more recently multilinear Airy estimates. These spaces and estimates first appear in the context of the Schrodinger equation in Bo1993b, although the analogous spaces for the wave equation appeared earlier RaRe1982, Be1983 in the context of propagation of singularities. See also Bo1993, KlMa1993.
