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Low Temperature Performance of a Superconducting Angular Accelerometer

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Advances in Cryogenic Engineering

Part of the book series: Advances in Cryogenic Engineering ((ACRE,volume 43))

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Abstract

An angular accelerometer has been developed that has an amplifier noise limited resolution of better than 10-10 rad s-2 Hz-1/2. The device consists of a superconducting niobium proof mass suspended by a torsional spring. A superconducting circuit and SQUID amplifier are used to measure angular displacement of the proof mass, which is proportional to the acceleration at frequencies below the natural resonance frequency. To prevent low-level linear accelerations from generating detectable angular accelerations, very precise mass balancing is necessary. Using room temperature measurements and wire EDM machining, the proof mass’s center of gravity can be controlled to within 0.2 microns. In recent tests conducted at 4.2 K, performance better than 3×10-9 rad s-2 Hz-1/2 has been observed. The noise floor can be traced to seismic and thermal inputs. Manufacturing details and performance tests are discussed.

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References

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Author information

Authors and Affiliations

  1. Department of Physics, University of Maryland, College Park, MD, 20742, USA

    E. R. Canavan & M. V. Moody

  2. NASA/Goddard Space Flight Center, Greenbelt, MD, 20771, USA

    P. J. Shirron

Authors
  1. E. R. Canavan
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  2. M. V. Moody
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  3. P. J. Shirron
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Editor information

Editors and Affiliations

  1. NASA-Ames Research Center, Moffett Field, California, USA

    Peter Kittel

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© 1998 Springer Science+Business Media New York

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Canavan, E.R., Moody, M.V., Shirron, P.J. (1998). Low Temperature Performance of a Superconducting Angular Accelerometer. In: Kittel, P. (eds) Advances in Cryogenic Engineering. Advances in Cryogenic Engineering, vol 43. Springer, Boston, MA. https://doi.org/10.1007/978-1-4757-9047-4_102

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  • DOI: https://doi.org/10.1007/978-1-4757-9047-4_102

  • Publisher Name: Springer, Boston, MA

  • Print ISBN: 978-1-4757-9049-8

  • Online ISBN: 978-1-4757-9047-4

  • eBook Packages: Springer Book Archive

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