Smartphone and Tablet-Based Sensing of Environmental Radioactivity: Mobile Low-Cost Measurements for Monitoring, Citizen Science, and Educational Purposes
Sensors for environmental radioactivity based on two novel setups using photodiodes, on the one hand, and an advanced tablet-based hybrid pixel detector, on the other hand, are presented. Measurements of four kinds of terrestrial and every-day radiation sources are carried out: Airborne radon, a min...
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MDPI AG
2019-10-01
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| Series: | Sensors |
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| Online Access: | https://www.mdpi.com/1424-8220/19/19/4264 |
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doaj-b142c6fa50bb4c2b92e2b5ec225fd4342020-11-25T01:47:14ZengMDPI AGSensors1424-82202019-10-011919426410.3390/s19194264s19194264Smartphone and Tablet-Based Sensing of Environmental Radioactivity: Mobile Low-Cost Measurements for Monitoring, Citizen Science, and Educational PurposesOliver Keller0Mathieu Benoit1Andreas Müller2Sascha Schmeling3CERN, Esplanade des Particules 1, 1217 Meyrin, SwitzerlandDépartement de Physique Nucléaire et Corpusculaire (DPNC), Université de Genève, 1211 Genève, SwitzerlandSection de Physique and Institut Universitaire de Formation des Enseignants (IUFE), Université de Genève, 1211 Genève, SwitzerlandCERN, Esplanade des Particules 1, 1217 Meyrin, SwitzerlandSensors for environmental radioactivity based on two novel setups using photodiodes, on the one hand, and an advanced tablet-based hybrid pixel detector, on the other hand, are presented. Measurements of four kinds of terrestrial and every-day radiation sources are carried out: Airborne radon, a mineral containing traces of uranium, edible potassium salt, and an old radium watch. These measurements permit comparisons between different types of ambient radioactive sources and enable environmental monitoring. Available data comprise discrimination between <inline-formula> <math display="inline"> <semantics> <mi>α</mi> </semantics> </math> </inline-formula>- and <inline-formula> <math display="inline"> <semantics> <msup> <mi>β</mi> <mo>−</mo> </msup> </semantics> </math> </inline-formula>-particles in an energy range of 33 keV to 8 MeV and under ambient air conditions. The diode-based sensor is particularly useful in portable applications since it is small and sturdy with little power consumption. It can be directly connected to a smartphone via the headset socket. For its development, the low-cost silicon positive-intrinsic-negative (PIN) diodes BPX61 and BPW34 have been characterised with capacitance versus voltage (C-V) curves. Physical detection limits for ionising radiation are discussed based on obtained depletion layer width: <inline-formula> <math display="inline"> <semantics> <mrow> <mo>(</mo> <mn>50</mn> <mo>±</mo> <mn>8</mn> <mo>)</mo> </mrow> </semantics> </math> </inline-formula> <inline-formula> <math display="inline"> <semantics> <mrow> <mi mathvariant="sans-serif">μ</mi> <mi mathvariant="normal">m</mi> </mrow> </semantics> </math> </inline-formula> at 8 V. The mobile and low-cost character of these sensors, as alternatives to Geiger counters or other advanced equipment, allows for a widespread use by individuals and citizen science groups for environmental and health protection purposes, or in educational settings. Source code and hardware design files are released under open source licenses with this publication.https://www.mdpi.com/1424-8220/19/19/4264natural radioactivityradonterrestrial radiationsilicon sensorhybrid pixel detectorformal and informal learningcitizen sciencelearning toolopen educational resourcelow-cost |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Oliver Keller Mathieu Benoit Andreas Müller Sascha Schmeling |
| spellingShingle |
Oliver Keller Mathieu Benoit Andreas Müller Sascha Schmeling Smartphone and Tablet-Based Sensing of Environmental Radioactivity: Mobile Low-Cost Measurements for Monitoring, Citizen Science, and Educational Purposes Sensors natural radioactivity radon terrestrial radiation silicon sensor hybrid pixel detector formal and informal learning citizen science learning tool open educational resource low-cost |
| author_facet |
Oliver Keller Mathieu Benoit Andreas Müller Sascha Schmeling |
| author_sort |
Oliver Keller |
| title |
Smartphone and Tablet-Based Sensing of Environmental Radioactivity: Mobile Low-Cost Measurements for Monitoring, Citizen Science, and Educational Purposes |
| title_short |
Smartphone and Tablet-Based Sensing of Environmental Radioactivity: Mobile Low-Cost Measurements for Monitoring, Citizen Science, and Educational Purposes |
| title_full |
Smartphone and Tablet-Based Sensing of Environmental Radioactivity: Mobile Low-Cost Measurements for Monitoring, Citizen Science, and Educational Purposes |
| title_fullStr |
Smartphone and Tablet-Based Sensing of Environmental Radioactivity: Mobile Low-Cost Measurements for Monitoring, Citizen Science, and Educational Purposes |
| title_full_unstemmed |
Smartphone and Tablet-Based Sensing of Environmental Radioactivity: Mobile Low-Cost Measurements for Monitoring, Citizen Science, and Educational Purposes |
| title_sort |
smartphone and tablet-based sensing of environmental radioactivity: mobile low-cost measurements for monitoring, citizen science, and educational purposes |
| publisher |
MDPI AG |
| series |
Sensors |
| issn |
1424-8220 |
| publishDate |
2019-10-01 |
| description |
Sensors for environmental radioactivity based on two novel setups using photodiodes, on the one hand, and an advanced tablet-based hybrid pixel detector, on the other hand, are presented. Measurements of four kinds of terrestrial and every-day radiation sources are carried out: Airborne radon, a mineral containing traces of uranium, edible potassium salt, and an old radium watch. These measurements permit comparisons between different types of ambient radioactive sources and enable environmental monitoring. Available data comprise discrimination between <inline-formula> <math display="inline"> <semantics> <mi>α</mi> </semantics> </math> </inline-formula>- and <inline-formula> <math display="inline"> <semantics> <msup> <mi>β</mi> <mo>−</mo> </msup> </semantics> </math> </inline-formula>-particles in an energy range of 33 keV to 8 MeV and under ambient air conditions. The diode-based sensor is particularly useful in portable applications since it is small and sturdy with little power consumption. It can be directly connected to a smartphone via the headset socket. For its development, the low-cost silicon positive-intrinsic-negative (PIN) diodes BPX61 and BPW34 have been characterised with capacitance versus voltage (C-V) curves. Physical detection limits for ionising radiation are discussed based on obtained depletion layer width: <inline-formula> <math display="inline"> <semantics> <mrow> <mo>(</mo> <mn>50</mn> <mo>±</mo> <mn>8</mn> <mo>)</mo> </mrow> </semantics> </math> </inline-formula> <inline-formula> <math display="inline"> <semantics> <mrow> <mi mathvariant="sans-serif">μ</mi> <mi mathvariant="normal">m</mi> </mrow> </semantics> </math> </inline-formula> at 8 V. The mobile and low-cost character of these sensors, as alternatives to Geiger counters or other advanced equipment, allows for a widespread use by individuals and citizen science groups for environmental and health protection purposes, or in educational settings. Source code and hardware design files are released under open source licenses with this publication. |
| topic |
natural radioactivity radon terrestrial radiation silicon sensor hybrid pixel detector formal and informal learning citizen science learning tool open educational resource low-cost |
| url |
https://www.mdpi.com/1424-8220/19/19/4264 |
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