169 / 2019-03-16 23:16:32
Comparsion of different kinds of frequency scanning methods used at low temperature
microwave resonator,frequency scanning,quasi-spherical
Abstract Accepted
Liu Wenjing / Techinical Institute of Physics and Chemistry
Zhang Haiyang / Technical Institute of Physics and Chemistry, CAS
Gao Bo / Technical Institute of Physics and Chemistry, CAS
Pan Changzhao / Laboratoire national de métrologie et d'essais-Conservatoire national des arts et métiers (LNE-Cnam)
Han Dongxu / School of Mechanical Engineering, Beijing Institute of Petrochemical Technology
Hu Jiangfeng / Technical Institute of Physics and Chemistry, CAS
Song Yaonan / Technical Institute of Physics and Chemistry, CAS
Chen hui / Xi'an Jiaotong University
Luo ercang / Technical Institute of Physics and Chemistry, CAS
Laurent pitre / Laboratoire national de métrologie et d'essais-Conservatoire national des arts et métiers (LNE-Cnam)
Kong Xiangjie / Technical Institute of Physics and Chemistry, CAS
A novel single pressure refractive index gas thermometry (SPRIGT) has been collaboratively developing by the TIPC-CAS in China and the LNE-Cnam in France. In the SPRIGT, microwave resonance frequencies are used to determine the refractive index of a working gas in a quasi-spherical resonator at a single pressure and temperature. Then an unknown temperature can be determined by comparing the refractive index with that at a reference temperature. Usually, the resonance frequencies were obtained by fitting the S21 scattering parameters with respect to the scanning frequencies, which are generated by a network analyzer using a frequency list generating routine. To realize high accuracy measurement in frequency at low temperatures, three kinds of frequency list generating method (scaning method), namely frequency uniform method, phase angle uniform method and their hybridization method (mixture method), have been investigated. The results show the phase angle uniform and mixture method is easier to realize high accuracy measurement than frequency uniform method at low temperature. Besides, long-time stability in frequency were also studied in this work, the shows that the phase angle uniform and mixture method have a same level stability, thus they can be used in the SPRIGT.
Important Date
  • Conference Date

    Sep 17

    2019

    to

    Sep 19

    2019

  • Mar 17 2019

    Draft paper submission deadline

  • Apr 30 2019

    Draft Paper Acceptance Notification

  • May 31 2019

    Final Paper Deadline

  • Sep 19 2019

    Registration deadline

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