Scale-Adaptive filters for the detection/separation of compact sources

2); Cambridge (UK)); D. Herranz (1; E. Martinez-Gonzalez (1) ((1) Instituto de Fisica de Cantabria (Spain); (2) Departamento de Fisica Moderna; J.L. Sanz (1); R.B. Barreiro (3); Universidad de Cantabria (Spain); (3) Cavendish Laboratory

arxiv: astro-ph/0204149 · v1 · submitted 2002-04-09 · 🌌 astro-ph

Scale-Adaptive filters for the detection/separation of compact sources

D. Herranz (1 , 2) , J.L. Sanz (1) , R.B. Barreiro (3) , E. Martinez-Gonzalez (1) ((1) Instituto de Fisica de Cantabria (Spain); (2) Departamento de Fisica Moderna , Universidad de Cantabria (Spain); (3) Cavendish Laboratory , Cambridge (UK)) This is my paper

classification 🌌 astro-ph

keywords sourcesbackgroundcompactdetectionequivfiltersgammalambda

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This paper presents scale-adaptive filters that optimize the detection/separation of compact sources on a background. We assume that the sources have a multiquadric profile, i. e. $\tau (x) = {[1 + {(x/r_c)}^2]}^{-\lambda}, \lambda \geq {1/2}, x\equiv |\vec{x}|$, and a background modeled by a homogeneous and isotropic random field, characterized by a power spectrum $P(q)\propto q^{-\gamma}, \gamma \geq 0, q\equiv |\vec{q}|$. We make an n-dimensional treatment but consider two interesting astrophysical applications related to clusters of galaxies (Sunyaev-Zel'dovich effect and X-ray emission).

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Scale-Adaptive filters for the detection/separation of compact sources

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