Boundedness of Fourier Integral Operators on $\mathcal{F} L^p$ spaces

Details Boundedness of Fourier Integral Operators on $\mathcal{F} L^p$ spaces Boundedness of Fourier Integral Operators on $\mathcal{F} L^p$ spaces

2008-01-09

arxiv.org/abs/0801.1444v3

Mathematics

Analysis of PDEs

26 pages

Scientific paper

We study the action of Fourier Integral Operators (FIOs) of H{\"o}rmander's type on ${\mathcal{F}} L^p({\mathbb {R}}^d_{comp}$, $1\leq p\leq\infty$. We see, from the Beurling-Helson theorem, that generally FIOs of order zero fail to be bounded on these spaces when $p\not=2$, the counterexample being given by any smooth non-linear change of variable. Here we show that FIOs of order $m=-d|1/2-1/p|$ are instead bounded. Moreover, this loss of derivatives is proved to be sharp in every dimension $d\geq1$, even for phases which are linear in the dual variables. The proofs make use of tools from time-frequency analysis such as the theory of modulation spaces.

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