High energy particle background at neutron spallation sources and possible solutions

Nataliia Cherkashyna; Kalliopi Kanaki; T. Kittelmann; U. Filges; Pascale Deen; K. Herwig; G. Ehlers; G. Greene; J. Carpenter; Robert Connatser; Richard Hall-Wilton; Phillip Bentley

doi:10.1088/1742-6596/528/1/012013

High energy particle background at neutron spallation sources and possible solutions

Nataliia Cherkashyna, Kalliopi Kanaki, T. Kittelmann, U. Filges, Pascale Deen, K. Herwig, G. Ehlers, G. Greene, J. Carpenter, Robert Connatser, Richard Hall-Wilton, Phillip Bentley

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

Abstract

Modern spallation neutron sources are driven by proton beams similar to GeV energies. Whereas low energy particle background shielding is well understood for reactors sources of neutrons (similar to 20 MeV), for high energies (100s MeV to multiple GeV) there is potential to improve shielding solutions and reduce instrument backgrounds significantly. We present initial measured data on high energy particle backgrounds, which illustrate the results of particle showers caused by high energy particles from spallation neutron sources. We use detailed physics models of different materials to identify new shielding solutions for such neutron sources, including laminated layers of multiple materials. In addition to the steel and concrete, which are used traditionally, we introduce some other options that are new to the neutron scattering community, among which there are copper alloys as used in hadronic calorimeters in high energy physics laboratories. These concepts have very attractive energy absorption characteristics, and simulations predict that the background suppression could be improved by one or two orders of magnitude. These solutions are expected to be great benefit to the European Spallation Source, where the majority of instruments are potentially affected by high energy backgrounds, as well as to existing spallation sources.

Original language	English
Title of host publication	International Workshop on Neutron Optics and Detectors (NOP&D 2013) 2–5 July 2013, Munich, Germany
Publisher	IOP Publishing
Pages	012013
Volume	528
DOIs	https://doi.org/10.1088/1742-6596/528/1/012013
Publication status	Published - 2014
Event	International Workshop on Neutron Optics and Detectors (NOP&D) - Munich, Germany Duration: 2013 Jul 2 → 2013 Jul 5

Publication series

Name
Volume	528
ISSN (Print)	1742-6596
ISSN (Electronic)	1742-6588

Conference

Conference	International Workshop on Neutron Optics and Detectors (NOP&D)
Country/Territory	Germany
City	Munich
Period	2013/07/02 → 2013/07/05

Subject classification (UKÄ)

Natural Sciences
Physical Sciences

Access to Document

10.1088/1742-6596/528/1/012013

Cite this

Cherkashyna, N., Kanaki, K., Kittelmann, T., Filges, U., Deen, P., Herwig, K., Ehlers, G., Greene, G., Carpenter, J., Connatser, R., Hall-Wilton, R., & Bentley, P. (2014). High energy particle background at neutron spallation sources and possible solutions. In International Workshop on Neutron Optics and Detectors (NOP&D 2013) 2–5 July 2013, Munich, Germany (Vol. 528, pp. 012013). IOP Publishing. https://doi.org/10.1088/1742-6596/528/1/012013

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title = "High energy particle background at neutron spallation sources and possible solutions",

abstract = "Modern spallation neutron sources are driven by proton beams similar to GeV energies. Whereas low energy particle background shielding is well understood for reactors sources of neutrons (similar to 20 MeV), for high energies (100s MeV to multiple GeV) there is potential to improve shielding solutions and reduce instrument backgrounds significantly. We present initial measured data on high energy particle backgrounds, which illustrate the results of particle showers caused by high energy particles from spallation neutron sources. We use detailed physics models of different materials to identify new shielding solutions for such neutron sources, including laminated layers of multiple materials. In addition to the steel and concrete, which are used traditionally, we introduce some other options that are new to the neutron scattering community, among which there are copper alloys as used in hadronic calorimeters in high energy physics laboratories. These concepts have very attractive energy absorption characteristics, and simulations predict that the background suppression could be improved by one or two orders of magnitude. These solutions are expected to be great benefit to the European Spallation Source, where the majority of instruments are potentially affected by high energy backgrounds, as well as to existing spallation sources.",

author = "Nataliia Cherkashyna and Kalliopi Kanaki and T. Kittelmann and U. Filges and Pascale Deen and K. Herwig and G. Ehlers and G. Greene and J. Carpenter and Robert Connatser and Richard Hall-Wilton and Phillip Bentley",

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doi = "10.1088/1742-6596/528/1/012013",

language = "English",

volume = "528",

publisher = "IOP Publishing",

pages = "012013",

booktitle = "International Workshop on Neutron Optics and Detectors (NOP&D 2013) 2–5 July 2013, Munich, Germany",

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note = "International Workshop on Neutron Optics and Detectors (NOP&D) ; Conference date: 02-07-2013 Through 05-07-2013",

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Cherkashyna, N, Kanaki, K, Kittelmann, T, Filges, U, Deen, P, Herwig, K, Ehlers, G, Greene, G, Carpenter, J, Connatser, R, Hall-Wilton, R & Bentley, P 2014, High energy particle background at neutron spallation sources and possible solutions. in International Workshop on Neutron Optics and Detectors (NOP&D 2013) 2–5 July 2013, Munich, Germany. vol. 528, IOP Publishing, pp. 012013, International Workshop on Neutron Optics and Detectors (NOP&D), Munich, Germany, 2013/07/02. https://doi.org/10.1088/1742-6596/528/1/012013

High energy particle background at neutron spallation sources and possible solutions. / Cherkashyna, Nataliia; Kanaki, Kalliopi; Kittelmann, T. et al.
International Workshop on Neutron Optics and Detectors (NOP&D 2013) 2–5 July 2013, Munich, Germany. Vol. 528 IOP Publishing, 2014. p. 012013.

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

TY - GEN

T1 - High energy particle background at neutron spallation sources and possible solutions

AU - Cherkashyna, Nataliia

AU - Kanaki, Kalliopi

AU - Kittelmann, T.

AU - Filges, U.

AU - Deen, Pascale

AU - Herwig, K.

AU - Ehlers, G.

AU - Greene, G.

AU - Carpenter, J.

AU - Connatser, Robert

AU - Hall-Wilton, Richard

AU - Bentley, Phillip

PY - 2014

Y1 - 2014

N2 - Modern spallation neutron sources are driven by proton beams similar to GeV energies. Whereas low energy particle background shielding is well understood for reactors sources of neutrons (similar to 20 MeV), for high energies (100s MeV to multiple GeV) there is potential to improve shielding solutions and reduce instrument backgrounds significantly. We present initial measured data on high energy particle backgrounds, which illustrate the results of particle showers caused by high energy particles from spallation neutron sources. We use detailed physics models of different materials to identify new shielding solutions for such neutron sources, including laminated layers of multiple materials. In addition to the steel and concrete, which are used traditionally, we introduce some other options that are new to the neutron scattering community, among which there are copper alloys as used in hadronic calorimeters in high energy physics laboratories. These concepts have very attractive energy absorption characteristics, and simulations predict that the background suppression could be improved by one or two orders of magnitude. These solutions are expected to be great benefit to the European Spallation Source, where the majority of instruments are potentially affected by high energy backgrounds, as well as to existing spallation sources.

AB - Modern spallation neutron sources are driven by proton beams similar to GeV energies. Whereas low energy particle background shielding is well understood for reactors sources of neutrons (similar to 20 MeV), for high energies (100s MeV to multiple GeV) there is potential to improve shielding solutions and reduce instrument backgrounds significantly. We present initial measured data on high energy particle backgrounds, which illustrate the results of particle showers caused by high energy particles from spallation neutron sources. We use detailed physics models of different materials to identify new shielding solutions for such neutron sources, including laminated layers of multiple materials. In addition to the steel and concrete, which are used traditionally, we introduce some other options that are new to the neutron scattering community, among which there are copper alloys as used in hadronic calorimeters in high energy physics laboratories. These concepts have very attractive energy absorption characteristics, and simulations predict that the background suppression could be improved by one or two orders of magnitude. These solutions are expected to be great benefit to the European Spallation Source, where the majority of instruments are potentially affected by high energy backgrounds, as well as to existing spallation sources.

U2 - 10.1088/1742-6596/528/1/012013

DO - 10.1088/1742-6596/528/1/012013

M3 - Paper in conference proceeding

VL - 528

SP - 012013

BT - International Workshop on Neutron Optics and Detectors (NOP&D 2013) 2–5 July 2013, Munich, Germany

PB - IOP Publishing

T2 - International Workshop on Neutron Optics and Detectors (NOP&D)

Y2 - 2 July 2013 through 5 July 2013

ER -

High energy particle background at neutron spallation sources and possible solutions

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