A three-dimensional electronic detector array for radiotherapy based on active matrices

A three-dimensional electronic detector array consisting of an active matrix readout configuration has been designed. The array comprises 31,560 submillimeter size photodiodes isotropically distributed within a 20 cm diameter semi-spherical volume of water equivalent material. The number of photodio...

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Bibliographic Details
Main Authors: Challco, R., Roa, D., Arqque, Z., Paucar, O., Guzman, S., Gonzales, A., Montoya, M., Hernandez-Bello, J.
Format: Conference Proceeding
Language:English
Subjects:
Arrays
Configurations
Data analysis
Diameters
Ionization chambers
Mathematical analysis
Matrices (mathematics)
Photodiodes
Photon beams
Quality assurance
Radiation therapy
Sensors
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Description
Summary:A three-dimensional electronic detector array consisting of an active matrix readout configuration has been designed. The array comprises 31,560 submillimeter size photodiodes isotropically distributed within a 20 cm diameter semi-spherical volume of water equivalent material. The number of photodiodes in an active matrix varies from 27 to 972, and 80 active matrices with 4200 channels are connected to a data acquisition unit for readout. A low resolution 20 cm diameter semi-spherical electronic detector array was constructed to test the active matrix readout configuration response. The array consists of 135 BPW34S photodiodes distributed in a 12 cm diameter layer and one ionization chamber at the center of the semi-spherical volume. Furthermore, a quality assurance plan for a 6-field 6-MV intracranial treatment was generated to check the array's response. The array was dose calibrated using 20 x 20 cm2 parallel-opposed 6 MV photon beams from a Varian 2100 C/D linear accelerator and the integrated voltage from each photodiode was matched to the calculated dose from a treatment planning software for that photodiode location. Data analysis resulted in a percent dose difference between the measured and calculated dose of ≤5%.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0051241