Calibration of Transition-edge Sensor (TES) Bolometer Arrays with Application to CLASS

The current and future cosmic microwave background (CMB) experiments fielding kilo-pixel arrays of transition-edge sensor (TES) bolometers require accurate and robust gain calibration methods. We simplify and refactor the standard TES model to directly relate the detector responsivity calibration an...

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Veröffentlicht in:	arXiv.org 2022-10
Hauptverfasser:	Appel, John W, Bennett, Charles L, Brewer, Michael K, Bustos, Ricardo, Chan, Manwei, Chuss, David T, Cleary, Joseph, Couto, Jullianna D, Dahal, Sumit, Datta, Rahul, Denis, Kevin, Eimer, Joseph, Essinger-Hileman, Thomas, Harrington, Kathleen, Iuliano, Jeffrey, Li, Yunyang, Marriage, Tobias A, Núñez, Carolina, Osumi, Keisuke, Padilla, Ivan L, Petroff, Matthew A, Karwan Rostem, Valle, Deniz A N, Watts, Duncan J, Weiland, Janet L, Wollack, Edward J, Xu, Zhilei
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Sprache:	eng
Schlagworte:	Arrays Bias Bolometers Calibration Cosmic microwave background Cosmology Moon Physics - Cosmology and Nongalactic Astrophysics Physics - Instrumentation and Methods for Astrophysics Sensor arrays Sensors Standard error Time constant
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creator	Appel, John W Bennett, Charles L Brewer, Michael K Bustos, Ricardo Chan, Manwei Chuss, David T Cleary, Joseph Couto, Jullianna D Dahal, Sumit Datta, Rahul Denis, Kevin Eimer, Joseph Essinger-Hileman, Thomas Harrington, Kathleen Iuliano, Jeffrey Li, Yunyang Marriage, Tobias A Núñez, Carolina Osumi, Keisuke Padilla, Ivan L Petroff, Matthew A Karwan Rostem Valle, Deniz A N Watts, Duncan J Weiland, Janet L Wollack, Edward J Xu, Zhilei
description	The current and future cosmic microwave background (CMB) experiments fielding kilo-pixel arrays of transition-edge sensor (TES) bolometers require accurate and robust gain calibration methods. We simplify and refactor the standard TES model to directly relate the detector responsivity calibration and optical time constant to the measured TES current $I$ and the applied bias current $I_{\mathrm{b}}$. The calibration method developed for the Cosmology Large Angular Scale Surveyor (CLASS) TES bolometer arrays relies on current versus voltage ($I$-$V$) measurements acquired daily prior to CMB observations. By binning Q-band (40GHz) $I$-$V$ measurements by optical loading, we find that the gain calibration median standard error within a bin is 0.3%. We test the accuracy of this "$I$-$V$ bin" detector calibration method by using the Moon as a photometric standard. The ratio of measured Moon amplitudes between detector pairs sharing the same feedhorn indicates a TES calibration error of 0.5%. We also find that for the CLASS Q-band TES array, calibrating the response of individual detectors based solely on the applied TES bias current accurately corrects TES gain variations across time but introduces a bias in the TES calibration from data counts to power units. Since the TES current bias value is set and recorded before every observation, this calibration method can always be applied to raw TES data and is not subject to $I$-$V$ data quality or processing errors.
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We simplify and refactor the standard TES model to directly relate the detector responsivity calibration and optical time constant to the measured TES current $I$ and the applied bias current $I_{\mathrm{b}}$. The calibration method developed for the Cosmology Large Angular Scale Surveyor (CLASS) TES bolometer arrays relies on current versus voltage ($I$-$V$) measurements acquired daily prior to CMB observations. By binning Q-band (40GHz) $I$-$V$ measurements by optical loading, we find that the gain calibration median standard error within a bin is 0.3%. We test the accuracy of this "$I$-$V$ bin" detector calibration method by using the Moon as a photometric standard. The ratio of measured Moon amplitudes between detector pairs sharing the same feedhorn indicates a TES calibration error of 0.5%. 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We simplify and refactor the standard TES model to directly relate the detector responsivity calibration and optical time constant to the measured TES current $I$ and the applied bias current $I_{\mathrm{b}}$. The calibration method developed for the Cosmology Large Angular Scale Surveyor (CLASS) TES bolometer arrays relies on current versus voltage ($I$-$V$) measurements acquired daily prior to CMB observations. By binning Q-band (40GHz) $I$-$V$ measurements by optical loading, we find that the gain calibration median standard error within a bin is 0.3%. We test the accuracy of this "$I$-$V$ bin" detector calibration method by using the Moon as a photometric standard. The ratio of measured Moon amplitudes between detector pairs sharing the same feedhorn indicates a TES calibration error of 0.5%. We also find that for the CLASS Q-band TES array, calibrating the response of individual detectors based solely on the applied TES bias current accurately corrects TES gain variations across time but introduces a bias in the TES calibration from data counts to power units. 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subjects	Arrays Bias Bolometers Calibration Cosmic microwave background Cosmology Moon Physics - Cosmology and Nongalactic Astrophysics Physics - Instrumentation and Methods for Astrophysics Sensor arrays Sensors Standard error Time constant
title	Calibration of Transition-edge Sensor (TES) Bolometer Arrays with Application to CLASS
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