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Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements
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Zeitschriftentitel: | Bulletin of the Polish Academy of Sciences Technical Sciences |
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Personen und Körperschaften: | , , , , |
In: | Bulletin of the Polish Academy of Sciences Technical Sciences, 62, 2014, 3, S. 505-510 |
Format: | E-Article |
Sprache: | Unbestimmt |
veröffentlicht: |
Polish Academy of Sciences Chancellery
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Schlagwörter: |
author_facet |
Baszczyk, M. Dorosz, P. Głąb, S. Kucewicz, W. Mik, Ł. Baszczyk, M. Dorosz, P. Głąb, S. Kucewicz, W. Mik, Ł. |
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author |
Baszczyk, M. Dorosz, P. Głąb, S. Kucewicz, W. Mik, Ł. |
spellingShingle |
Baszczyk, M. Dorosz, P. Głąb, S. Kucewicz, W. Mik, Ł. Bulletin of the Polish Academy of Sciences Technical Sciences Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements Artificial Intelligence Computer Networks and Communications General Engineering Information Systems Atomic and Molecular Physics, and Optics |
author_sort |
baszczyk, m. |
spelling |
Baszczyk, M. Dorosz, P. Głąb, S. Kucewicz, W. Mik, Ł. 2300-1917 Polish Academy of Sciences Chancellery Artificial Intelligence Computer Networks and Communications General Engineering Information Systems Atomic and Molecular Physics, and Optics http://dx.doi.org/10.2478/bpasts-2014-0054 <jats:title>Abstract</jats:title> <jats:p>The paper presents method for thermal generation reduction in low level light applications, especially where measured phenomena have random character. The algorithm was developed basing on cosmic ray measurements. The main parts of the system are: Silicon Photomultipliers (SiPM), front-end ASIC for amplifying and shaping signals. SiPM is a very sensitive device which can detect single photons. Comparing to a standard photomultiplier SiPM has a compact size, low operating voltage and it is immune to an electromagnetic field. Thermally generated signals are disadvantage of SiPM. This paper presents the measurement method to reduce influence of thermal generation.</jats:p> Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements Bulletin of the Polish Academy of Sciences Technical Sciences |
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10.2478/bpasts-2014-0054 |
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Polish Academy of Sciences Chancellery, 2014 |
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Polish Academy of Sciences Chancellery |
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Bulletin of the Polish Academy of Sciences Technical Sciences |
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title |
Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_unstemmed |
Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_full |
Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_fullStr |
Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_full_unstemmed |
Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_short |
Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_sort |
reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
topic |
Artificial Intelligence Computer Networks and Communications General Engineering Information Systems Atomic and Molecular Physics, and Optics |
url |
http://dx.doi.org/10.2478/bpasts-2014-0054 |
publishDate |
2014 |
physical |
505-510 |
description |
<jats:title>Abstract</jats:title>
<jats:p>The paper presents method for thermal generation reduction in low level light applications, especially where measured phenomena have random character. The algorithm was developed basing on cosmic ray measurements. The main parts of the system are: Silicon Photomultipliers (SiPM), front-end ASIC for amplifying and shaping signals. SiPM is a very sensitive device which can detect single photons. Comparing to a standard photomultiplier SiPM has a compact size, low operating voltage and it is immune to an electromagnetic field. Thermally generated signals are disadvantage of SiPM. This paper presents the measurement method to reduce influence of thermal generation.</jats:p> |
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author | Baszczyk, M., Dorosz, P., Głąb, S., Kucewicz, W., Mik, Ł. |
author_facet | Baszczyk, M., Dorosz, P., Głąb, S., Kucewicz, W., Mik, Ł., Baszczyk, M., Dorosz, P., Głąb, S., Kucewicz, W., Mik, Ł. |
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container_title | Bulletin of the Polish Academy of Sciences Technical Sciences |
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description | <jats:title>Abstract</jats:title> <jats:p>The paper presents method for thermal generation reduction in low level light applications, especially where measured phenomena have random character. The algorithm was developed basing on cosmic ray measurements. The main parts of the system are: Silicon Photomultipliers (SiPM), front-end ASIC for amplifying and shaping signals. SiPM is a very sensitive device which can detect single photons. Comparing to a standard photomultiplier SiPM has a compact size, low operating voltage and it is immune to an electromagnetic field. Thermally generated signals are disadvantage of SiPM. This paper presents the measurement method to reduce influence of thermal generation.</jats:p> |
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series | Bulletin of the Polish Academy of Sciences Technical Sciences |
source_id | 49 |
spelling | Baszczyk, M. Dorosz, P. Głąb, S. Kucewicz, W. Mik, Ł. 2300-1917 Polish Academy of Sciences Chancellery Artificial Intelligence Computer Networks and Communications General Engineering Information Systems Atomic and Molecular Physics, and Optics http://dx.doi.org/10.2478/bpasts-2014-0054 <jats:title>Abstract</jats:title> <jats:p>The paper presents method for thermal generation reduction in low level light applications, especially where measured phenomena have random character. The algorithm was developed basing on cosmic ray measurements. The main parts of the system are: Silicon Photomultipliers (SiPM), front-end ASIC for amplifying and shaping signals. SiPM is a very sensitive device which can detect single photons. Comparing to a standard photomultiplier SiPM has a compact size, low operating voltage and it is immune to an electromagnetic field. Thermally generated signals are disadvantage of SiPM. This paper presents the measurement method to reduce influence of thermal generation.</jats:p> Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements Bulletin of the Polish Academy of Sciences Technical Sciences |
spellingShingle | Baszczyk, M., Dorosz, P., Głąb, S., Kucewicz, W., Mik, Ł., Bulletin of the Polish Academy of Sciences Technical Sciences, Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements, Artificial Intelligence, Computer Networks and Communications, General Engineering, Information Systems, Atomic and Molecular Physics, and Optics |
title | Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_full | Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_fullStr | Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_full_unstemmed | Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_short | Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_sort | reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
title_unstemmed | Reduction of silicon photomultipliers thermal generation in self-coincidence system applied in low level light measurements |
topic | Artificial Intelligence, Computer Networks and Communications, General Engineering, Information Systems, Atomic and Molecular Physics, and Optics |
url | http://dx.doi.org/10.2478/bpasts-2014-0054 |