Kernel theorems in coorbit theory

Transactions of the American Mathematical Society, Series B Pub Date : 2019-03-07 DOI:10.1090/BTRAN/42
P. Balázs, K. Grōchenig, M. Speckbacher
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引用次数: 15

Abstract

We prove general kernel theorems for operators acting between coorbit spaces. These are Banach spaces associated to an integrable representation of a locally compact group and contain most of the usual function spaces (Besov spaces, modulation spaces, etc.). A kernel theorem describes the form of every bounded operator between a coorbit space of test functions and distributions by means of a kernel in a coorbit space associated to the tensor product representation. As special cases we recover Feichtinger’s kernel theorem for modulation spaces and the recent generalizations by Cordero and Nicola. We also obtain a kernel theorem for operators between the Besov spaces B ˙ 1 , 1 0 \dot {B}^0_{1,1} and B ˙ ∞ , ∞ 0 \dot {B}^{0}_{\infty , \infty } .
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共轨理论中的核定理
我们证明了作用于共轨空间之间的算子的一般核定理。这些是与局部紧群的可积表示相关的Banach空间,并且包含了大多数常用的函数空间(Besov空间,调制空间等)。核定理通过与张量积表示相关联的共轨空间中的核,描述了在测试函数和分布的共轨空间之间的每一个有界算子的形式。作为特例,我们恢复了调制空间的Feichtinger核定理和Cordero和Nicola最近的推广。我们还得到了Besov空间B˙1,10 \dot B^0_1,{1和}B{˙∞},∞0 \dot B{^}0_{}{\infty, \infty之间算子的核定理}。
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来源期刊
Transactions of the American Mathematical Society, Series B
Transactions of the American Mathematical Society, Series B
CiteScore
1.70
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0.00%
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0
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