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Angular and Polarization Response of Multimode Sensors with Resistive-Grid Absorbers

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arxiv 1401.1859 v1 pith:PP5QA36Q submitted 2014-01-08 astro-ph.IM astro-ph.COphysics.ins-detphysics.optics

Angular and Polarization Response of Multimode Sensors with Resistive-Grid Absorbers

classification astro-ph.IM astro-ph.COphysics.ins-detphysics.optics
keywords polarizationmultimodedabsorbercross-polarsensitivitysensorssystematicsabsorption
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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High sensitivity receiver systems with near ideal polarization sensitivity are highly desirable for development of millimeter and sub-millimeter radio astronomy. Multimoded bolometers provide a unique solution to achieve such sensitivity, for which hundreds of single-mode sensors would otherwise be required. The primary concern in employing such multimoded sensors for polarimetery is the control of the polarization systematics. In this paper, we examine the angular- and polarization- dependent absorption pattern of a thin resistive grid or membrane, which models an absorber used for a multimoded bolometer. The result shows that a freestanding thin resistive absorber with a surface resistivity of \eta/2, where \eta\ is the impedance of free space, attains a beam pattern with equal E- and H-plane responses, leading to zero cross polarization. For a resistive-grid absorber, the condition is met when a pair of grids is positioned orthogonal to each other and both have a resistivity of \eta/2. When a reflective backshort termination is employed to improve absorption efficiency, the cross-polar level can be suppressed below -30 dB if acceptance angle of the sensor is limited to <60degrees. The small cross-polar systematics have even-parity patterns and do not contaminate the measurements of odd-parity polarization patterns, for which many of recent instruments for cosmic microwave background are designed. Underlying symmetry that suppresses these cross-polar systematics is discussed in detail. The estimates and formalism provided in this paper offer key tools in the design consideration of the instruments using the multimoded polarimeters.

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