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Astronomical Receiver Modelling Using Scattering Matrices

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arxiv 1410.5469 v1 pith:U7ZO7IY2 submitted 2014-10-20 astro-ph.IM

Astronomical Receiver Modelling Using Scattering Matrices

classification astro-ph.IM
keywords receivernoisebehaviourcorrelationdatadescribematricesmodelling
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Proper modelling of astronomical receivers is vital: it describes the systematic errors in the raw data, guides the receiver design process, and assists data calibration. In this paper we describe a method of analytically modelling the full signal and noise behaviour of arbitrarily complex radio receivers. We use electrical scattering matrices to describe the signal behaviour of individual components in the receiver, and noise correlation matrices to describe their noise behaviour. These are combined to produce the full receiver model. We apply this approach to a specified receiver architecture: a hybrid of a continous comparison radiometer and correlation polarimeter designed for the C-Band All-Sky Survey. We produce analytic descriptions of the receiver Mueller matrix and noise temperature, and discuss how imperfections in crucial components affect the raw data. Many of the conclusions drawn are generally applicable to correlation polarimeters and continuous comparison radiometers.

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