Variable coefficient Wolff-type inequalities and sharp local smoothing estimates for wave equations on manifolds

Abstract: The sharp Wolff-type decoupling estimates of Bourgain-Demeter are extended to the variable coefficient setting. These results are applied to obtain new sharp local smoothing estimates for wave equations on compact Riemannian manifolds, away from the endpoint regularity exponent. More generally, local smoothing estimates are established for a natural class of Fourier integral operators; at this level of generality the results are sharp in odd dimensions, both in terms of the regularity exponent and the Lebesgue… Show more

“…This theorem is a variable coefficient generalisation of a decoupling inequality due to Bourgain [6]. It can be established by adapting the argument of [6] using many of the techniques employed in the current article: see also [2]. 32 Summing together the contributions from the various spatial balls B K 2 , it remains to estimate the decoupled contributions }T λ f τ } L p pBRq .…”

“…Suppose T λ is a Hörmander-type operator. For all ε ą 0 the estimate }T λ f } L p pR n q À ε,φ,a λ ε }f } L p pB n´1 q (1.4) 2 Given a (possibly empty) list of objects L, for real numbers Ap, Bp ě 0 depending on some Lebesgue exponent p the notation Ap À L Bp or Bp Á L Ap signifies that Ap ď CBp for some constant C " C L,n,p ě 0 depending on the objects in the list, n and p. In addition, Ap " L Bp is used to signify that Ap À L Bp and Ap Á L Bp. holds uniformly for λ ě 1 whenever p satisfies p ě 2¨n`1 n´1 if n is odd;…”

Sharp estimates for oscillatory integral operators via polynomial partitioning

“…This theorem is a variable coefficient generalisation of a decoupling inequality due to Bourgain [6]. It can be established by adapting the argument of [6] using many of the techniques employed in the current article: see also [2]. 32 Summing together the contributions from the various spatial balls B K 2 , it remains to estimate the decoupled contributions }T λ f τ } L p pBRq .…”

“…Suppose T λ is a Hörmander-type operator. For all ε ą 0 the estimate }T λ f } L p pR n q À ε,φ,a λ ε }f } L p pB n´1 q (1.4) 2 Given a (possibly empty) list of objects L, for real numbers Ap, Bp ě 0 depending on some Lebesgue exponent p the notation Ap À L Bp or Bp Á L Ap signifies that Ap ď CBp for some constant C " C L,n,p ě 0 depending on the objects in the list, n and p. In addition, Ap " L Bp is used to signify that Ap À L Bp and Ap Á L Bp. holds uniformly for λ ě 1 whenever p satisfies p ě 2¨n`1 n´1 if n is odd;…”

Sharp estimates for oscillatory integral operators via polynomial partitioning

“…当 n = 2 时, 利用 Beltran 等 [41] 建立的最佳型 L 6 -估计与平凡的 L 2 -估计插值, 只能重新获得文 献 [22] 中的 L 4 -L 4 相应结果. 然而, 通过双线性方法, 可以改进文献 [22] 中对应的局部光滑性估计.…”

Local smoothness of Fourier integral operators and related research

“…We now consider (a, b) close to (a • , b • ) and construct changes of variables so that in the new coordinates theconstant coefficient decoupling theorem in Proposition 6.1 can be applied at suitable scales. The idea of applying a constant coefficient decoupling theorem in a variable coefficient situation also appears in [3].…”

$${\mathbf {L}}^{{\mathbf {p}}}$$-Sobolev Estimates for a Class of Integral Operators with Folding Canonical Relations