2D range modulator for high-precision water calorimetry in scanned carbon-ion beams.

2D range modulator for high-precision water calorimetry in scanned carbon-ion beams. Phys Med Biol. 2020 Jul 16;: Authors: Holm KM, Weber U, Simeonov Y, Krauss A, Jaekel O, Greilich S Abstract Ionization chamber-based dosimetry for carbon-ion beams still shows a significantly higher standard uncertainty than high-energy photon dosimetry. This is mainly caused by the high standard uncertainty of the correction factor for beam quality k_Q,Q0 . Due to a lack of experimental data, the given values for k_Q,Q0 are based on theoretical calculations. To reduce this standard uncertainty, k_Q,Q0 factors for different irradiation conditions and ICs are determined experimentally by means of water calorimetry. In this article, we describe the process of creating a suitable irradiation technique and the characterization of the dose distribution for water calorimetry in a spread-out Bragg peak (SOBP) for scanned carbon-ion beams using a 2D range modulator. Here, the aim is to achieve a field homogeneity with a standard deviation of the measured dose values of below 1 % and a scanning time of under two minutes for a reasonable field size and applied dose. PMID: 32674083 [PubMed - as supplied by publisher]
Source: Physics in Medicine and Biology - Category: Physics Authors: Tags: Phys Med Biol Source Type: research
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