A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processing

A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processing

Dosimetry serves as the backbone of ionizing radiation treatment in radiation processing, ensuring precision and accuracy in transferring the absorbed dose for medical sterilization and phytosanitary applications. Over the years, methods for calculating and measuring the absorbed dose have significa...

Full description

Saved in:
Bibliographic Details
Main Authors: Firmansyah Okky A., Kurniawan Budhy, Saputro Bimo, Walo Marta, Gryczka Urszula, Nuraeni Nunung
Format: Article
Language:English
Published: Sciendo 2025-08-01
Series:Nukleonika
Subjects:
gamma irradiator
monte carlo
radiation processing
Online Access:https://doi.org/10.2478/nuka-2025-0007
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1849225047581917184
author Firmansyah Okky A.
Kurniawan Budhy
Saputro Bimo
Walo Marta
Gryczka Urszula
Nuraeni Nunung
author_facet Firmansyah Okky A.
Kurniawan Budhy
Saputro Bimo
Walo Marta
Gryczka Urszula
Nuraeni Nunung
author_sort Firmansyah Okky A.
collection DOAJ
description Dosimetry serves as the backbone of ionizing radiation treatment in radiation processing, ensuring precision and accuracy in transferring the absorbed dose for medical sterilization and phytosanitary applications. Over the years, methods for calculating and measuring the absorbed dose have significantly advanced. Although experimental dosimetry remains indispensable, simulation techniques – such as Monte Carlo (MC) methods – have gained prominence by providing deeper insights into the physical processes of radiation interactions. Additionally, theoretical methods continue to provide accurate dose calculations, contributing to the field’s progress. This study examines recent advancements in dose calculation techniques for radiation processing, highlighting individual methods – experimental, simulation-based, and theoretical – as well as their combinations to achieve accurate and reproducible dose measurements. It also addresses the challenges associated with each radiation processing method and discusses future prospects for improving the dosimetry of radiation processing techniques.
format Article
id doaj-art-b1215e68c2424af6bc9a06904a9c7d2b
institution Kabale University
issn 1508-5791
language English
publishDate 2025-08-01
publisher Sciendo
record_format Article
series Nukleonika
spelling doaj-art-b1215e68c2424af6bc9a06904a9c7d2b2025-08-25T06:12:02ZengSciendoNukleonika1508-57912025-08-01703597710.2478/nuka-2025-0007A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processingFirmansyah Okky A.0Kurniawan Budhy1Saputro Bimo2Walo Marta3Gryczka Urszula4Nuraeni Nunung5Department of Physics, Faculty of Mathematics and Natural Science, University of Indonesia, Depok Banten16424, Indonesia; and Research Center for Safety, Metrology, and Nuclear Quality Technology, Research Organization for Nuclear Energy, National Research and Innovation Agency, South Tangerang, Banten15314, IndonesiaDepartment of Physics, Faculty of Mathematics and Natural Science, University of Indonesia, Depok Banten16424, IndonesiaResearch Center for Safety, Metrology, and Nuclear Quality Technology, Research Organization for Nuclear Energy, National Research and Innovation Agency, South Tangerang, Banten15314, IndonesiaInstitute of Nuclear and Chemistry Technology, Dorodna St. 16, 03-195Warsaw, PolandInstitute of Nuclear and Chemistry Technology, Dorodna St. 16, 03-195Warsaw, PolandResearch Center for Safety, Metrology, and Nuclear Quality Technology, Research Organization for Nuclear Energy, National Research and Innovation Agency, South Tangerang, Banten15314, IndonesiaDosimetry serves as the backbone of ionizing radiation treatment in radiation processing, ensuring precision and accuracy in transferring the absorbed dose for medical sterilization and phytosanitary applications. Over the years, methods for calculating and measuring the absorbed dose have significantly advanced. Although experimental dosimetry remains indispensable, simulation techniques – such as Monte Carlo (MC) methods – have gained prominence by providing deeper insights into the physical processes of radiation interactions. Additionally, theoretical methods continue to provide accurate dose calculations, contributing to the field’s progress. This study examines recent advancements in dose calculation techniques for radiation processing, highlighting individual methods – experimental, simulation-based, and theoretical – as well as their combinations to achieve accurate and reproducible dose measurements. It also addresses the challenges associated with each radiation processing method and discusses future prospects for improving the dosimetry of radiation processing techniques.https://doi.org/10.2478/nuka-2025-0007gamma irradiatormonte carloradiation processing
spellingShingle Firmansyah Okky A.
Kurniawan Budhy
Saputro Bimo
Walo Marta
Gryczka Urszula
Nuraeni Nunung
A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processing
Nukleonika
gamma irradiator
monte carlo
radiation processing
title A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processing
title_full A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processing
title_fullStr A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processing
title_full_unstemmed A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processing
title_short A review of emerging trends in experimental, simulation, and theoretical methods for dose calculation in radiation processing
title_sort review of emerging trends in experimental simulation and theoretical methods for dose calculation in radiation processing
topic gamma irradiator
monte carlo
radiation processing
url https://doi.org/10.2478/nuka-2025-0007
work_keys_str_mv AT firmansyahokkya areviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT kurniawanbudhy areviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT saputrobimo areviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT walomarta areviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT gryczkaurszula areviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT nuraeninunung areviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT firmansyahokkya reviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT kurniawanbudhy reviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT saputrobimo reviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT walomarta reviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT gryczkaurszula reviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing
AT nuraeninunung reviewofemergingtrendsinexperimentalsimulationandtheoreticalmethodsfordosecalculationinradiationprocessing

Similar Items