Characterization of the Particle-induced Background of XMM-Newton EPIC-pn: Short- And Long-term Variability

Esra Bulbul; Ralph Kraft; Paul Nulsen; Michael Freyberg; Eric D. Miller; Catherine Grant; Mark W. Bautz; David N. Burrows; Steven Allen; Tanja Eraerds; Valentina Fioretti; Fabio Gastaldello; Vittorio Ghirardini; David Hall; Norbert Meidinger; Silvano Molendi; Arne Rau; Dan Wilkins; Joern Wilms

doi:10.3847/1538-4357/ab698a

Characterization of the Particle-induced Background of XMM-Newton EPIC-pn: Short- And Long-term Variability

Esra Bulbul, Ralph Kraft, Paul Nulsen, Michael Freyberg, Eric D. Miller, Catherine Grant, Mark W. Bautz, David N. Burrows, Steven Allen, Tanja Eraerds, Valentina Fioretti, Fabio Gastaldello, Vittorio Ghirardini, David Hall, Norbert Meidinger, Silvano Molendi, Arne Rau, Dan Wilkins, Joern Wilms

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Abstract

The particle-induced background of X-ray observatories is produced by galactic cosmic ray (GCR) primary protons, electrons, and He ions. Events due to direct interaction with the detector are usually removed by onboard processing. The interactions of these primary particles with the detector environment produce secondary particles that mimic X-ray events from celestial sources, and are much more difficult to identify. The filter-wheel closed data from the XMM-Newton EPIC-pn camera in small window mode (SWM) contains both the X-ray-like background events, and the events due to direct interactions with the primary particles. From this data, we demonstrate that X-ray-like background events are spatially correlated with the primary particle interaction. This result can be used to further characterize and reduce the non-X-ray background in silicon-based X-ray detectors in current and future missions. We also show that spectrum and pattern fractions of secondary particle events are different from those produced by cosmic X-rays.

Original language	English
Article number	13
Journal	Astrophysical Journal
Volume	891
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/ab698a
Publication status	Published - 1 Mar 2020

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Bulbul, E., Kraft, R., Nulsen, P., Freyberg, M., Miller, E. D., Grant, C., Bautz, M. W., Burrows, D. N., Allen, S., Eraerds, T., Fioretti, V., Gastaldello, F., Ghirardini, V., Hall, D., Meidinger, N., Molendi, S., Rau, A., Wilkins, D., & Wilms, J. (2020). Characterization of the Particle-induced Background of XMM-Newton EPIC-pn: Short- And Long-term Variability. Astrophysical Journal, 891(1), [13]. https://doi.org/10.3847/1538-4357/ab698a

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title = "Characterization of the Particle-induced Background of XMM-Newton EPIC-pn: Short- And Long-term Variability",

abstract = "The particle-induced background of X-ray observatories is produced by galactic cosmic ray (GCR) primary protons, electrons, and He ions. Events due to direct interaction with the detector are usually removed by onboard processing. The interactions of these primary particles with the detector environment produce secondary particles that mimic X-ray events from celestial sources, and are much more difficult to identify. The filter-wheel closed data from the XMM-Newton EPIC-pn camera in small window mode (SWM) contains both the X-ray-like background events, and the events due to direct interactions with the primary particles. From this data, we demonstrate that X-ray-like background events are spatially correlated with the primary particle interaction. This result can be used to further characterize and reduce the non-X-ray background in silicon-based X-ray detectors in current and future missions. We also show that spectrum and pattern fractions of secondary particle events are different from those produced by cosmic X-rays.",

author = "Esra Bulbul and Ralph Kraft and Paul Nulsen and Michael Freyberg and Miller, {Eric D.} and Catherine Grant and Bautz, {Mark W.} and Burrows, {David N.} and Steven Allen and Tanja Eraerds and Valentina Fioretti and Fabio Gastaldello and Vittorio Ghirardini and David Hall and Norbert Meidinger and Silvano Molendi and Arne Rau and Dan Wilkins and Joern Wilms",

year = "2020",

month = mar,

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doi = "10.3847/1538-4357/ab698a",

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Bulbul, E, Kraft, R, Nulsen, P, Freyberg, M, Miller, ED, Grant, C, Bautz, MW, Burrows, DN, Allen, S, Eraerds, T, Fioretti, V, Gastaldello, F, Ghirardini, V, Hall, D, Meidinger, N, Molendi, S, Rau, A, Wilkins, D & Wilms, J 2020, 'Characterization of the Particle-induced Background of XMM-Newton EPIC-pn: Short- And Long-term Variability', Astrophysical Journal, vol. 891, no. 1, 13. https://doi.org/10.3847/1538-4357/ab698a

TY - JOUR

T1 - Characterization of the Particle-induced Background of XMM-Newton EPIC-pn

T2 - Short- And Long-term Variability

AU - Bulbul, Esra

AU - Kraft, Ralph

AU - Nulsen, Paul

AU - Freyberg, Michael

AU - Miller, Eric D.

AU - Grant, Catherine

AU - Bautz, Mark W.

AU - Burrows, David N.

AU - Allen, Steven

AU - Eraerds, Tanja

AU - Fioretti, Valentina

AU - Gastaldello, Fabio

AU - Ghirardini, Vittorio

AU - Hall, David

AU - Meidinger, Norbert

AU - Molendi, Silvano

AU - Rau, Arne

AU - Wilkins, Dan

AU - Wilms, Joern

PY - 2020/3/1

Y1 - 2020/3/1

N2 - The particle-induced background of X-ray observatories is produced by galactic cosmic ray (GCR) primary protons, electrons, and He ions. Events due to direct interaction with the detector are usually removed by onboard processing. The interactions of these primary particles with the detector environment produce secondary particles that mimic X-ray events from celestial sources, and are much more difficult to identify. The filter-wheel closed data from the XMM-Newton EPIC-pn camera in small window mode (SWM) contains both the X-ray-like background events, and the events due to direct interactions with the primary particles. From this data, we demonstrate that X-ray-like background events are spatially correlated with the primary particle interaction. This result can be used to further characterize and reduce the non-X-ray background in silicon-based X-ray detectors in current and future missions. We also show that spectrum and pattern fractions of secondary particle events are different from those produced by cosmic X-rays.

AB - The particle-induced background of X-ray observatories is produced by galactic cosmic ray (GCR) primary protons, electrons, and He ions. Events due to direct interaction with the detector are usually removed by onboard processing. The interactions of these primary particles with the detector environment produce secondary particles that mimic X-ray events from celestial sources, and are much more difficult to identify. The filter-wheel closed data from the XMM-Newton EPIC-pn camera in small window mode (SWM) contains both the X-ray-like background events, and the events due to direct interactions with the primary particles. From this data, we demonstrate that X-ray-like background events are spatially correlated with the primary particle interaction. This result can be used to further characterize and reduce the non-X-ray background in silicon-based X-ray detectors in current and future missions. We also show that spectrum and pattern fractions of secondary particle events are different from those produced by cosmic X-rays.

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SN - 0004-637X

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ER -

Characterization of the Particle-induced Background of XMM-Newton EPIC-pn: Short- And Long-term Variability

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