1. A cryogenic half-wave plate polarimeter using a superconducting magnetic bearing
- Author
-
Klein, Jeff, Aboobaker, Asad, Ade, Peter, Aubin, François, Baccigalupi, Carlo, Bao, Chaoyun, Borrill, Julian, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Gold, Benjamin, Grainger, Will, Hanany, Shaul, Hubmayr, Johannes, Hillbrand, Seth, Grain, Julien, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Kisner, Theodore, Korotkov, Andrei, Leach, Sam, Lee, Adrian, Levinson, Lorne, Limon, Michele, MacDermid, Kevin, Matsumura, Tomotake, Miller, Amber, Milligan, Michael, Pascale, Enzo, Polsgrove, Daniel, Ponthieu, Nicolas, Raach, Kate, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Stompor, Radek, Tran, Huan, Tristram, Matthieu, Tucker, Gregory S., Yadav, Amit, Zaldarriaga, Matias, and Zilic, Kyle
- Abstract
We present the design and measured performance of the superconducting magnetic bearing (SMB) that was used successfully as the rotation mechanism in the half-wave plate polarimeter of the E and B Experiment (EBEX) during its North American test flight. EBEX is a NASA-supported balloon-borne experiment that is designed to measure the polarization of the cosmic microwave background. In this implementation the half-wave plate is mounted to the rotor of an SMB that is operating at the sink temperature of 4 K. We demonstrate robust, remote operation on a balloon-borne payload, with angular encoding accuracy of 0.01°. We find rotational speed variation to be 0.2% RMS. We measure vibrational modes and find them to be consistent with a simple SMB model. We search for but do not find magnetic field interference in the detectors and readout. We set an upper limit of 3% of the receiver noise level after 5 minutes of integration on such interference. At 2 Hz rotation we measure a power dissipation of 56 mW. If this power dissipation is reduced, such an SMB implementation is a candidate for low-noise space applications because of the absence of stick-slip friction and low wear.
- Published
- 2011
- Full Text
- View/download PDF