Neutron spectroscopy: The case of the spherical proportional counter
Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Giomataris, I. [verfasserIn] |
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E-Artikel |
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| Sprache: |
Englisch |
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2023transfer abstract |
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| Übergeordnetes Werk: |
Enthalten in: The efficacy of EEG-biofeedback for acute pain management, a randomized sham-controlled study of a tailored protocol - Ide, C.V. ELSEVIER, 2017, a journal on accelerators, instrumentation and techniques applied to research in nuclear and atomic physics, materials science and related fields in physics, Amsterdam |
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| Übergeordnetes Werk: |
volume:1045 ; year:2023 ; day:1 ; month:01 ; pages:0 |
| Links: |
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| DOI / URN: |
10.1016/j.nima.2022.167590 |
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| 520 | |a Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. | ||
| 520 | |a Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. | ||
| 650 | 7 | |a Spherical proportional counter |2 Elsevier | |
| 650 | 7 | |a Neutron detectors |2 Elsevier | |
| 650 | 7 | |a Gaseous detectors |2 Elsevier | |
| 650 | 7 | |a Neutron spectroscopy |2 Elsevier | |
| 700 | 1 | |a Katsioulas, I. |4 oth | |
| 700 | 1 | |a Knights, P. |4 oth | |
| 700 | 1 | |a Manthos, I. |4 oth | |
| 700 | 1 | |a Neep, T. |4 oth | |
| 700 | 1 | |a Nikolopoulos, K. |4 oth | |
| 700 | 1 | |a Papaevangelou, T. |4 oth | |
| 700 | 1 | |a Ward, R. |4 oth | |
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10.1016/j.nima.2022.167590 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001967.pica (DE-627)ELV05951907X (ELSEVIER)S0168-9002(22)00882-8 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl Giomataris, I. verfasserin aut Neutron spectroscopy: The case of the spherical proportional counter 2023transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Spherical proportional counter Elsevier Neutron detectors Elsevier Gaseous detectors Elsevier Neutron spectroscopy Elsevier Katsioulas, I. oth Knights, P. oth Manthos, I. oth Neep, T. oth Nikolopoulos, K. oth Papaevangelou, T. oth Ward, R. oth Enthalten in North-Holland Publ. Co Ide, C.V. ELSEVIER The efficacy of EEG-biofeedback for acute pain management, a randomized sham-controlled study of a tailored protocol 2017 a journal on accelerators, instrumentation and techniques applied to research in nuclear and atomic physics, materials science and related fields in physics Amsterdam (DE-627)ELV000874671 volume:1045 year:2023 day:1 month:01 pages:0 https://doi.org/10.1016/j.nima.2022.167590 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 1045 2023 1 0101 0 |
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10.1016/j.nima.2022.167590 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001967.pica (DE-627)ELV05951907X (ELSEVIER)S0168-9002(22)00882-8 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl Giomataris, I. verfasserin aut Neutron spectroscopy: The case of the spherical proportional counter 2023transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Spherical proportional counter Elsevier Neutron detectors Elsevier Gaseous detectors Elsevier Neutron spectroscopy Elsevier Katsioulas, I. oth Knights, P. oth Manthos, I. oth Neep, T. oth Nikolopoulos, K. oth Papaevangelou, T. oth Ward, R. oth Enthalten in North-Holland Publ. Co Ide, C.V. ELSEVIER The efficacy of EEG-biofeedback for acute pain management, a randomized sham-controlled study of a tailored protocol 2017 a journal on accelerators, instrumentation and techniques applied to research in nuclear and atomic physics, materials science and related fields in physics Amsterdam (DE-627)ELV000874671 volume:1045 year:2023 day:1 month:01 pages:0 https://doi.org/10.1016/j.nima.2022.167590 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 1045 2023 1 0101 0 |
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10.1016/j.nima.2022.167590 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001967.pica (DE-627)ELV05951907X (ELSEVIER)S0168-9002(22)00882-8 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl Giomataris, I. verfasserin aut Neutron spectroscopy: The case of the spherical proportional counter 2023transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Spherical proportional counter Elsevier Neutron detectors Elsevier Gaseous detectors Elsevier Neutron spectroscopy Elsevier Katsioulas, I. oth Knights, P. oth Manthos, I. oth Neep, T. oth Nikolopoulos, K. oth Papaevangelou, T. oth Ward, R. oth Enthalten in North-Holland Publ. Co Ide, C.V. ELSEVIER The efficacy of EEG-biofeedback for acute pain management, a randomized sham-controlled study of a tailored protocol 2017 a journal on accelerators, instrumentation and techniques applied to research in nuclear and atomic physics, materials science and related fields in physics Amsterdam (DE-627)ELV000874671 volume:1045 year:2023 day:1 month:01 pages:0 https://doi.org/10.1016/j.nima.2022.167590 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 1045 2023 1 0101 0 |
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10.1016/j.nima.2022.167590 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001967.pica (DE-627)ELV05951907X (ELSEVIER)S0168-9002(22)00882-8 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl Giomataris, I. verfasserin aut Neutron spectroscopy: The case of the spherical proportional counter 2023transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Spherical proportional counter Elsevier Neutron detectors Elsevier Gaseous detectors Elsevier Neutron spectroscopy Elsevier Katsioulas, I. oth Knights, P. oth Manthos, I. oth Neep, T. oth Nikolopoulos, K. oth Papaevangelou, T. oth Ward, R. oth Enthalten in North-Holland Publ. Co Ide, C.V. ELSEVIER The efficacy of EEG-biofeedback for acute pain management, a randomized sham-controlled study of a tailored protocol 2017 a journal on accelerators, instrumentation and techniques applied to research in nuclear and atomic physics, materials science and related fields in physics Amsterdam (DE-627)ELV000874671 volume:1045 year:2023 day:1 month:01 pages:0 https://doi.org/10.1016/j.nima.2022.167590 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 1045 2023 1 0101 0 |
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10.1016/j.nima.2022.167590 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001967.pica (DE-627)ELV05951907X (ELSEVIER)S0168-9002(22)00882-8 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl Giomataris, I. verfasserin aut Neutron spectroscopy: The case of the spherical proportional counter 2023transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. Spherical proportional counter Elsevier Neutron detectors Elsevier Gaseous detectors Elsevier Neutron spectroscopy Elsevier Katsioulas, I. oth Knights, P. oth Manthos, I. oth Neep, T. oth Nikolopoulos, K. oth Papaevangelou, T. oth Ward, R. oth Enthalten in North-Holland Publ. Co Ide, C.V. ELSEVIER The efficacy of EEG-biofeedback for acute pain management, a randomized sham-controlled study of a tailored protocol 2017 a journal on accelerators, instrumentation and techniques applied to research in nuclear and atomic physics, materials science and related fields in physics Amsterdam (DE-627)ELV000874671 volume:1045 year:2023 day:1 month:01 pages:0 https://doi.org/10.1016/j.nima.2022.167590 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 1045 2023 1 0101 0 |
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Enthalten in The efficacy of EEG-biofeedback for acute pain management, a randomized sham-controlled study of a tailored protocol Amsterdam volume:1045 year:2023 day:1 month:01 pages:0 |
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Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. 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Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. |
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Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. |
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Neutron spectroscopy is an invaluable tool for many scientific and industrial applications, including underground Dark Matter searches. Neutron-induced backgrounds produced by cosmic ray muons and the cavern radioactivity can mimic the expected Dark Matter signal. However, existing neutron detection methods have several drawbacks and limitations, thus measurements remain elusive. A promising new approach to neutron spectroscopy is the use of a nitrogen-filled spherical proportional counter that exploits the 14N(n, α )11B and 14N(n,p)14C reactions. This is a safe, inexpensive, effective and reliable technique. In this work, the latest instrumentation developments are incorporated in a compact detector operated at the University of Birmingham (UoB) with high gain at gas pressure up to 1.8bar. We demonstrate spectroscopic measurements of thermalised and fast neutrons respectively from an 241Am- 9 Be source and from the MC40 cyclotron facility at UoB. Additionally, the detector response to neutrons is simulated using a framework developed at UoB and compared with the experimental results. |
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