Radon transformation on reductive symmetric spaces:Support theorems

Job Jacob Kuit

doi:10.1016/j.aim.2013.03.010

Radon transformation on reductive symmetric spaces:Support theorems

Job Jacob Kuit

Department of Mathematical Sciences

2 Citations (Scopus)

Abstract

We introduce a class of Radon transforms for reductive symmetric spaces, including the horospherical transforms, and derive support theorems for these transforms.A reductive symmetric space is a homogeneous space G / H for a reductive Lie group G of the Harish-Chandra class, where H is an open subgroup of the fixed-point subgroup for an involution σ on G. Let P be a parabolic subgroup such that σ (P) is opposite to P and let _{N P} be the unipotent radical of P. For a compactly supported smooth function φ on G / H, we define RP(φ)(g) to be the integral of _{N P} ∋ n → φ (g n {dot operator} H) over _{N P}. The Radon transform RP thus obtained can be extended to a large class of distributions containing the rapidly decreasing smooth functions and the compactly supported distributions.For these transforms we derive support theorems in which the support of φ is (partially) characterized in terms of the support of RPφ. The proof is based on the relation between the Radon transform and the Fourier transform on G / H, and a Paley-Wiener-shift type argument. Our results generalize the support theorem of Helgason for the Radon transform on a Riemannian symmetric space.

Original language	English
Journal	Advances in Mathematics
Volume	240
Pages (from-to)	427-483
ISSN	0001-8708
DOIs	https://doi.org/10.1016/j.aim.2013.03.010
Publication status	Published - Jun 2013

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title = "Radon transformation on reductive symmetric spaces:Support theorems",

abstract = "We introduce a class of Radon transforms for reductive symmetric spaces, including the horospherical transforms, and derive support theorems for these transforms.A reductive symmetric space is a homogeneous space G / H for a reductive Lie group G of the Harish-Chandra class, where H is an open subgroup of the fixed-point subgroup for an involution σ on G. Let P be a parabolic subgroup such that σ (P) is opposite to P and let N P be the unipotent radical of P. For a compactly supported smooth function φ on G / H, we define RP(φ)(g) to be the integral of N P ∋ n → φ (g n {dot operator} H) over N P. The Radon transform RP thus obtained can be extended to a large class of distributions containing the rapidly decreasing smooth functions and the compactly supported distributions.For these transforms we derive support theorems in which the support of φ is (partially) characterized in terms of the support of RPφ. The proof is based on the relation between the Radon transform and the Fourier transform on G / H, and a Paley-Wiener-shift type argument. Our results generalize the support theorem of Helgason for the Radon transform on a Riemannian symmetric space.",

author = "Kuit, {Job Jacob}",

year = "2013",

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doi = "10.1016/j.aim.2013.03.010",

language = "English",

volume = "240",

pages = "427--483",

journal = "Advances in Mathematics",

issn = "0001-8708",

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TY - JOUR

T1 - Radon transformation on reductive symmetric spaces:Support theorems

AU - Kuit, Job Jacob

PY - 2013/6

Y1 - 2013/6

N2 - We introduce a class of Radon transforms for reductive symmetric spaces, including the horospherical transforms, and derive support theorems for these transforms.A reductive symmetric space is a homogeneous space G / H for a reductive Lie group G of the Harish-Chandra class, where H is an open subgroup of the fixed-point subgroup for an involution σ on G. Let P be a parabolic subgroup such that σ (P) is opposite to P and let N P be the unipotent radical of P. For a compactly supported smooth function φ on G / H, we define RP(φ)(g) to be the integral of N P ∋ n → φ (g n {dot operator} H) over N P. The Radon transform RP thus obtained can be extended to a large class of distributions containing the rapidly decreasing smooth functions and the compactly supported distributions.For these transforms we derive support theorems in which the support of φ is (partially) characterized in terms of the support of RPφ. The proof is based on the relation between the Radon transform and the Fourier transform on G / H, and a Paley-Wiener-shift type argument. Our results generalize the support theorem of Helgason for the Radon transform on a Riemannian symmetric space.

AB - We introduce a class of Radon transforms for reductive symmetric spaces, including the horospherical transforms, and derive support theorems for these transforms.A reductive symmetric space is a homogeneous space G / H for a reductive Lie group G of the Harish-Chandra class, where H is an open subgroup of the fixed-point subgroup for an involution σ on G. Let P be a parabolic subgroup such that σ (P) is opposite to P and let N P be the unipotent radical of P. For a compactly supported smooth function φ on G / H, we define RP(φ)(g) to be the integral of N P ∋ n → φ (g n {dot operator} H) over N P. The Radon transform RP thus obtained can be extended to a large class of distributions containing the rapidly decreasing smooth functions and the compactly supported distributions.For these transforms we derive support theorems in which the support of φ is (partially) characterized in terms of the support of RPφ. The proof is based on the relation between the Radon transform and the Fourier transform on G / H, and a Paley-Wiener-shift type argument. Our results generalize the support theorem of Helgason for the Radon transform on a Riemannian symmetric space.

U2 - 10.1016/j.aim.2013.03.010

DO - 10.1016/j.aim.2013.03.010

M3 - Journal article

SN - 0001-8708

VL - 240

SP - 427

EP - 483

JO - Advances in Mathematics

JF - Advances in Mathematics

ER -

Radon transformation on reductive symmetric spaces:Support theorems

Abstract

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