Artículo
Silicon-based three-dimensional microstructures for radiation dosimetry in hadrontherapy
Autor/es | Guardiola, C.
Quirion, D. Pellegrini, G. Fleta, C. Esteban, S. Cortés Giraldo, Miguel Antonio Gómez, F. Solberg, T. Carabe, A. Lozano, M. |
Departamento | Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear |
Fecha de publicación | 2015 |
Fecha de depósito | 2020-04-15 |
Publicado en |
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Resumen | In this work, we propose a solid-state-detector for use in radiation microdosimetry. This device improves the performance of existing dosimeters using customized 3D-cylindrical microstructures etched inside silicon. The ... In this work, we propose a solid-state-detector for use in radiation microdosimetry. This device improves the performance of existing dosimeters using customized 3D-cylindrical microstructures etched inside silicon. The microdosimeter consists of an array of micro-sensors that have 3D-cylindrical electrodes of 15 μm diameter and a depth of 5 μm within a silicon membrane, resulting in a well-defined micrometric radiation sensitive volume. These microdetectors have been characterized using an 241Am source to assess their performance as radiation detectors in a high-LET environment. This letter demonstrates the capability of this microdetector to be used to measure dose and LET in hadrontherapy centers for treatment plan verification as part of their patient-specific quality control program. |
Cita | Guardiola, C., Quirion, D., Pellegrini, G., Fleta, C., Esteban, S., Cortés Giraldo, M.A.,...,Lozano, M. (2015). Silicon-based three-dimensional microstructures for radiation dosimetry in hadrontherapy. Applied Physics Letters, 107 (2), 023505. |
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