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Square function inequality for a class of Fourier integral operators satisfying cinematic curvature conditions

  • Chuanwei Gao , Changxing Miao EMAIL logo und Jianwei-Urbain Yang
Veröffentlicht/Copyright: 16. Juli 2020
Forum Mathematicum
Aus der Zeitschrift Forum Mathematicum Band 32 Heft 6

Abstract

In this paper, we establish an improved variable coefficient version of the square function inequality, by which the local smoothing estimate LαpLp for the Fourier integral operators satisfying cinematic curvature condition is further improved. In particular, we establish almost sharp results for 2<p3 and push forward the estimate for the critical point p=4. As a consequence, the local smoothing estimate for the wave equation on the manifold is refined. We generalize the results in [S. Lee and A. Vargas, On the cone multiplier in 3, J. Funct. Anal. 263 2012, 4, 925–940; J. Lee, A trilinear approach to square function and local smoothing estimates for the wave operator, preprint 2018, https://arxiv.org/abs/1607.08426v5] to its variable coefficient counterpart. The main ingredients in the argument includes multilinear oscillatory integral estimate [J. Bennett, A. Carbery and T. Tao, On the multilinear restriction and Kakeya conjectures, Acta Math. 196 2006, 2, 261–302] and decoupling inequality [D. Beltran, J. Hickman and C. D. Sogge, Variable coefficient Wolff-type inequalities and sharp local smoothing estimates for wave equations on manifolds, Anal. PDE 13 2020, 2, 403–433].

Keywords: Fourier integral operator; cinematic curvature condition; local smoothing; decoupling inequality
MSC 2010: 35S30; 35L05

Communicated by Christopher D. Sogge

Funding source: China Postdoctoral Science Foundation

Award Identifier / Grant number: 8206300279

Funding source: National Natural Science Foundation of China

Award Identifier / Grant number: 11831004

Award Identifier / Grant number: 11901032

Funding statement: C. Gao was supported by Chinese Postdoc Foundation grant 8206300279. C. Miao was supported by NSFC Grant 11831004. J. Yang was supported by NSFC grant 11901032, and Beijing Institute of Technology Research Fund Program for Young Scholars.

A Appendix

In this section, we will prove Lemma 5.4.

Proof of Lemma 5.4.

Due to the fast decay of the weight wR away from |z|R12+ε4, it suffices to consider

(ν𝟏{|x|R12+ε4}(Ez¯νf)L2(wBR)12)12.

Freeze time t0, and note that

(A.1)Ez¯νf(x,t0)=eix,ηχz¯,ν(η)(Ez¯f)(η,t0)dη,

where

Ez¯f(x,t0)=2ei(x,η+t0hz¯(η))a2,z¯(η)f(η)dη,χz¯,ν(η)=χν(Ψλ(z¯,η)).

We further decompose

(A.2)Ez¯f(,t0)=𝟏{|x|R12+ε2}()Ez¯f(,t0)+𝟏{|x|>R12+ε2}()Ez¯f(,t0).

It remains to estimate

eix,ηχz¯,ν(η)(𝟏{|x|R12+ε2}()Ezkf(,t0))(η)dη.

In fact, for |x~|R12+ε4, the contribution of the second term in (A.2) to (A.1) equals

χ^z¯,ν(x~-y)𝟏{|x|>R12+ε2}(y)Ez¯f(y,t0)dyR-εNfL2.

Now, unfreezing t0, by Plancherel’s theorem, we have

(νeix,ηχz¯,ν(η)(𝟏{|x|R12+ε2}()Ez¯f(,t))(η)dηL2(wBR)2)12Ez¯fL2(wBR).

This completes the proof of Lemma 5.4. ∎

Acknowledgements

The authors would like to thank David Beltran and Christopher Sogge for their helpful discussion and suggestions. The authors are also deeply grateful to the anonymous referees for their invaluable comments which helped improve the paper greatly.

References

[1] D. Beltran, J. Hickman and C. D. Sogge, Sharp local smoothing estimates for Fourier integral operators, preprint (2018), https://arxiv.org/abs/1812.11616v1. 10.1007/978-3-030-72058-2_2Suche in Google Scholar

[2] D. Beltran, J. Hickman and C. D. Sogge, Variable coefficient Wolff-type inequalities and sharp local smoothing estimates for wave equations on manifolds, Anal. PDE 13 (2020), no. 2, 403–433. 10.2140/apde.2020.13.403Suche in Google Scholar

[3] J. Bennett, A. Carbery and T. Tao, On the multilinear restriction and Kakeya conjectures, Acta Math. 196 (2006), no. 2, 261–302. 10.1007/s11511-006-0006-4Suche in Google Scholar

[4] J. Bourgain, Lp-estimates for oscillatory integrals in several variables, Geom. Funct. Anal. 1 (1991), no. 4, 321–374. 10.1007/BF01895639Suche in Google Scholar

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[14] S. Lee and A. Vargas, On the cone multiplier in 3, J. Funct. Anal. 263 (2012), no. 4, 925–940. 10.1016/j.jfa.2012.05.010Suche in Google Scholar

[15] G. Mockenhaupt, A. Seeger and C. D. Sogge, Local smoothing of Fourier integral operators and Carleson–Sjölin estimates, J. Amer. Math. Soc. 6 (1993), no. 1, 65–130. 10.2307/2152795Suche in Google Scholar

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Received: 2020-03-06
Revised: 2020-05-31
Published Online: 2020-07-16
Published in Print: 2020-11-01

© 2021 Walter de Gruyter GmbH, Berlin/Boston

Artikel in diesem Heft

  1. Frontmatter
  2. Square function inequality for a class of Fourier integral operators satisfying cinematic curvature conditions
  3. Homological epimorphisms, homotopy epimorphisms and acyclic maps
  4. Summation formulae involving Stirling and Lah numbers
  5. Two-weighted inequalities for maximal operators related to Schrödinger differential operator
  6. 𝐿𝑝-estimates for rough bi-parameter Fourier integral operators
  7. Variation and oscillation inequalities for commutators in two-weight setting
  8. Convexity of sets in metric Abelian groups
  9. Operations that preserve integrability, and truncated Riesz spaces
  10. Very degenerate elliptic equations under almost critical Sobolev regularity
  11. Higher integrability near the initial boundary for nonhomogeneous parabolic systems of 𝑝-Laplacian type
  12. When the image of a derivation on a uniformly complete 𝑓-algebra is contained in the radical
  13. Dyadic bilinear estimates and applications to the well-posedness for the 2D Zakharov–Kuznetsov equation in the endpoint space 𝐻−1/4
  14. Indefinite Einstein metrics on nice Lie groups
  15. Automorphic Schwarzian equations
  16. Smoothing theorems for Radon transforms over hypersurfaces and related operators
  17. Metrical universality for groups
https://doi.org/10.1515/forum-2020-0061
Schlagwörter für diesen Artikel
Fourier integral operator; cinematic curvature condition; local smoothing; decoupling inequality

Artikel in diesem Heft

  1. Frontmatter
  2. Square function inequality for a class of Fourier integral operators satisfying cinematic curvature conditions
  3. Homological epimorphisms, homotopy epimorphisms and acyclic maps
  4. Summation formulae involving Stirling and Lah numbers
  5. Two-weighted inequalities for maximal operators related to Schrödinger differential operator
  6. 𝐿𝑝-estimates for rough bi-parameter Fourier integral operators
  7. Variation and oscillation inequalities for commutators in two-weight setting
  8. Convexity of sets in metric Abelian groups
  9. Operations that preserve integrability, and truncated Riesz spaces
  10. Very degenerate elliptic equations under almost critical Sobolev regularity
  11. Higher integrability near the initial boundary for nonhomogeneous parabolic systems of 𝑝-Laplacian type
  12. When the image of a derivation on a uniformly complete 𝑓-algebra is contained in the radical
  13. Dyadic bilinear estimates and applications to the well-posedness for the 2D Zakharov–Kuznetsov equation in the endpoint space 𝐻−1/4
  14. Indefinite Einstein metrics on nice Lie groups
  15. Automorphic Schwarzian equations
  16. Smoothing theorems for Radon transforms over hypersurfaces and related operators
  17. Metrical universality for groups
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