First flight performance of the Micro-X microcalorimeter X-ray sounding rocket

Joseph S. Adams; Robert Baker; Simon R. Bandler; Noëmie Bastidon; Daniel Castro; Meredith E. Danowksi; William B. Doriese; Megan E. Eckart; Enectalí Figueroa-Feliciano; Joshua Fuhrman; David C. Goldfinger; Sarah N.T. Heine; Gene Hilton; Antonia J.F. Hubbard; Daniel Jardin; Richard L. Kelley; Caroline A. Kilbourne; Steven W. Leman; Renée E. Manzagol-Harwood; Dan Mccammon; Philip H.H. Oakley; Takashi Okajima; Frederick Scott Porter; Carl D. Reintsema; John Rutherford; Tarek Saab; Kosuke Sato; Peter Serlemitsos; Stephen J. Smith; Yang Soong; Patrick Wikus

doi:10.1117/1.JATIS.9.3.034001

First flight performance of the Micro-X microcalorimeter X-ray sounding rocket

Joseph S. Adams, Robert Baker, Simon R. Bandler, Noëmie Bastidon, Daniel Castro, Meredith E. Danowksi, William B. Doriese, Megan E. Eckart, Enectalí Figueroa-Feliciano, Joshua Fuhrman, David C. Goldfinger, Sarah N.T. Heine, Gene Hilton, Antonia J.F. Hubbard^*, Daniel Jardin, Richard L. Kelley, Caroline A. Kilbourne, Steven W. Leman, Renée E. Manzagol-Harwood, Dan MccammonPhilip H.H. Oakley, Takashi Okajima, Frederick Scott Porter, Carl D. Reintsema, John Rutherford, Tarek Saab, Kosuke Sato, Peter Serlemitsos, Stephen J. Smith, Yang Soong, Patrick Wikus

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

The flight of the Micro-X sounding rocket on July 22, 2018, marked the first operation of transition-edge sensors and their superconducting quantum interference device readouts in space. The instrument combines the microcalorimeter array with an imaging mirror to take high-resolution spectra from extended X-ray sources. The first flight target was the Cassiopeia A supernova remnant. Although a rocket pointing malfunction led to no time on-target, data from the flight were used to evaluate the performance of the instrument and demonstrate the flight viability of the payload. The instrument successfully achieved a stable cryogenic environment, executed all flight operations, and observed X-rays from the on-board calibration source. The flight environment did not significantly affect the performance of the detectors compared with ground operation. The flight provided an invaluable test of the impact of external magnetic fields and the instrument configuration on detector performance. This flight provides a milestone in the flight readiness of these detector and readout technologies, both of which have been selected for future X-ray observatories.

Original language	English
Article number	034001
Journal	Journal of Astronomical Telescopes, Instruments, and Systems
Volume	9
Issue number	3
DOIs	https://doi.org/10.1117/1.JATIS.9.3.034001
Publication status	Published - 1 Jul 2023

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Adams, J. S., Baker, R., Bandler, S. R., Bastidon, N., Castro, D., Danowksi, M. E., Doriese, W. B., Eckart, M. E., Figueroa-Feliciano, E., Fuhrman, J., Goldfinger, D. C., Heine, S. N. T., Hilton, G., Hubbard, A. J. F., Jardin, D., Kelley, R. L., Kilbourne, C. A., Leman, S. W., Manzagol-Harwood, R. E., ... Wikus, P. (2023). First flight performance of the Micro-X microcalorimeter X-ray sounding rocket. Journal of Astronomical Telescopes, Instruments, and Systems, 9(3), Article 034001. https://doi.org/10.1117/1.JATIS.9.3.034001

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title = "First flight performance of the Micro-X microcalorimeter X-ray sounding rocket",

abstract = "The flight of the Micro-X sounding rocket on July 22, 2018, marked the first operation of transition-edge sensors and their superconducting quantum interference device readouts in space. The instrument combines the microcalorimeter array with an imaging mirror to take high-resolution spectra from extended X-ray sources. The first flight target was the Cassiopeia A supernova remnant. Although a rocket pointing malfunction led to no time on-target, data from the flight were used to evaluate the performance of the instrument and demonstrate the flight viability of the payload. The instrument successfully achieved a stable cryogenic environment, executed all flight operations, and observed X-rays from the on-board calibration source. The flight environment did not significantly affect the performance of the detectors compared with ground operation. The flight provided an invaluable test of the impact of external magnetic fields and the instrument configuration on detector performance. This flight provides a milestone in the flight readiness of these detector and readout technologies, both of which have been selected for future X-ray observatories.",

keywords = "X-ray astronomy, instrumentation, microcalorimeters, sounding rockets, transition-edge sensor",

author = "Adams, {Joseph S.} and Robert Baker and Bandler, {Simon R.} and No{\"e}mie Bastidon and Daniel Castro and Danowksi, {Meredith E.} and Doriese, {William B.} and Eckart, {Megan E.} and Enectal{\'i} Figueroa-Feliciano and Joshua Fuhrman and Goldfinger, {David C.} and Heine, {Sarah N.T.} and Gene Hilton and Hubbard, {Antonia J.F.} and Daniel Jardin and Kelley, {Richard L.} and Kilbourne, {Caroline A.} and Leman, {Steven W.} and Manzagol-Harwood, {Ren{\'e}e E.} and Dan Mccammon and Oakley, {Philip H.H.} and Takashi Okajima and Porter, {Frederick Scott} and Reintsema, {Carl D.} and John Rutherford and Tarek Saab and Kosuke Sato and Peter Serlemitsos and Smith, {Stephen J.} and Yang Soong and Patrick Wikus",

note = "Publisher Copyright: {\textcopyright} 2023 Society of Photo-Optical Instrumentation Engineers (SPIE).",

year = "2023",

month = jul,

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doi = "10.1117/1.JATIS.9.3.034001",

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Adams, JS, Baker, R, Bandler, SR, Bastidon, N, Castro, D, Danowksi, ME, Doriese, WB, Eckart, ME, Figueroa-Feliciano, E, Fuhrman, J, Goldfinger, DC, Heine, SNT, Hilton, G, Hubbard, AJF, Jardin, D, Kelley, RL, Kilbourne, CA, Leman, SW, Manzagol-Harwood, RE, Mccammon, D, Oakley, PHH, Okajima, T, Porter, FS, Reintsema, CD, Rutherford, J, Saab, T, Sato, K, Serlemitsos, P, Smith, SJ, Soong, Y & Wikus, P 2023, 'First flight performance of the Micro-X microcalorimeter X-ray sounding rocket', Journal of Astronomical Telescopes, Instruments, and Systems, vol. 9, no. 3, 034001. https://doi.org/10.1117/1.JATIS.9.3.034001

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AU - Baker, Robert

AU - Bandler, Simon R.

AU - Bastidon, Noëmie

AU - Castro, Daniel

AU - Danowksi, Meredith E.

AU - Doriese, William B.

AU - Eckart, Megan E.

AU - Figueroa-Feliciano, Enectalí

AU - Fuhrman, Joshua

AU - Goldfinger, David C.

AU - Heine, Sarah N.T.

AU - Hilton, Gene

AU - Hubbard, Antonia J.F.

AU - Jardin, Daniel

AU - Kelley, Richard L.

AU - Kilbourne, Caroline A.

AU - Leman, Steven W.

AU - Manzagol-Harwood, Renée E.

AU - Mccammon, Dan

AU - Oakley, Philip H.H.

AU - Okajima, Takashi

AU - Porter, Frederick Scott

AU - Reintsema, Carl D.

AU - Rutherford, John

AU - Saab, Tarek

AU - Sato, Kosuke

AU - Serlemitsos, Peter

AU - Smith, Stephen J.

AU - Soong, Yang

AU - Wikus, Patrick

PY - 2023/7/1

Y1 - 2023/7/1

N2 - The flight of the Micro-X sounding rocket on July 22, 2018, marked the first operation of transition-edge sensors and their superconducting quantum interference device readouts in space. The instrument combines the microcalorimeter array with an imaging mirror to take high-resolution spectra from extended X-ray sources. The first flight target was the Cassiopeia A supernova remnant. Although a rocket pointing malfunction led to no time on-target, data from the flight were used to evaluate the performance of the instrument and demonstrate the flight viability of the payload. The instrument successfully achieved a stable cryogenic environment, executed all flight operations, and observed X-rays from the on-board calibration source. The flight environment did not significantly affect the performance of the detectors compared with ground operation. The flight provided an invaluable test of the impact of external magnetic fields and the instrument configuration on detector performance. This flight provides a milestone in the flight readiness of these detector and readout technologies, both of which have been selected for future X-ray observatories.

AB - The flight of the Micro-X sounding rocket on July 22, 2018, marked the first operation of transition-edge sensors and their superconducting quantum interference device readouts in space. The instrument combines the microcalorimeter array with an imaging mirror to take high-resolution spectra from extended X-ray sources. The first flight target was the Cassiopeia A supernova remnant. Although a rocket pointing malfunction led to no time on-target, data from the flight were used to evaluate the performance of the instrument and demonstrate the flight viability of the payload. The instrument successfully achieved a stable cryogenic environment, executed all flight operations, and observed X-rays from the on-board calibration source. The flight environment did not significantly affect the performance of the detectors compared with ground operation. The flight provided an invaluable test of the impact of external magnetic fields and the instrument configuration on detector performance. This flight provides a milestone in the flight readiness of these detector and readout technologies, both of which have been selected for future X-ray observatories.

KW - X-ray astronomy

KW - instrumentation

KW - microcalorimeters

KW - sounding rockets

KW - transition-edge sensor

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DO - 10.1117/1.JATIS.9.3.034001

M3 - Article

SN - 2329-4124

VL - 9

JO - Journal of Astronomical Telescopes, Instruments, and Systems

JF - Journal of Astronomical Telescopes, Instruments, and Systems

IS - 3

M1 - 034001

ER -

First flight performance of the Micro-X microcalorimeter X-ray sounding rocket

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