Gas selection for Xe-based LCP-GEM detectors onboard the CubeSat X-ray observatory NinjaSat
We present a gas selection for Xe-based gas electron multiplier (GEM) detectors, Gas Multiplier Counters (GMCs) onboard the CubeSat X-ray observatory NinjaSat. To achieve an energy bandpass of 2–50 keV, we decided to use a Xe-based gas mixture at a pressure of 1.2 atm that is sensitive to high-energ...
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Veröffentlicht in: | Journal of instrumentation 2023-06, Vol.18 (6), p.C06020 |
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Sprache: | eng |
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Zusammenfassung: | We present a gas selection for Xe-based gas electron multiplier (GEM) detectors, Gas
Multiplier Counters (GMCs) onboard the CubeSat X-ray observatory NinjaSat. To achieve an energy
bandpass of 2–50 keV, we decided to use a Xe-based gas mixture at a pressure of 1.2 atm that is
sensitive to high-energy X-rays. In addition, an effective gain of over 300 is required for a
single GEM so that the 2 keV X-ray signal can be sufficiently larger than the electrical noise.
At first, we measured the effective gains of GEM in nine Xe-based gas mixtures (combinations of
Xe, Ar, CO
2
, CH
4
, and dimethyl ether; DME) at 1.0 atm. The highest gains were obtained
with Xe/Ar/DME mixtures, while relatively lower gains were obtained with Xe/Ar/CO
2
,
Xe/Ar/CH
4
, and Xe+quencher mixtures. Based on these results, we selected the Xe/Ar/DME
(75%/24%/1%) mixture at 1.2 atm as the sealed gas for GMC. Then we investigated the dependence
of an effective gain on the electric fields in the drift and induction gaps ranging from
100–650 V cm
-1
and 500–5000 V cm
-1
, respectively, in the selected gas mixture. The
effective gain weakly depended on the drift field while it was almost linearly proportional to the
induction field: 2.4 times higher at 5000 V cm
-1
than at 1000 V cm
-1
. With the optimal
induction and drift fields, the flight model GMC achieves an effective gain of 460 with an applied
GEM voltage of 590 V. |
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ISSN: | 1748-0221 1748-0221 |
DOI: | 10.1088/1748-0221/18/06/C06020 |