@article{oai:repo.qst.go.jp:00081830,
 author = {Fujiwara, Takeshi and Yusuke, Koba and Mitsuya, Yuki and Nakamura, Riichiro and Tatsumoto, Ryuta and Kawahara, Shuto and Maehata, Keisuke and Yamaguchi, Hidetoshi and Chang, Weishan and Naruhiro, Matsufuji and Takahashi, Hiroyuki and Yusuke, Koba and Chang, Weishan and Naruhiro, Matsufuji},
 journal = {Physica Medica},
 month = {Feb},
 note = {The use of carbon ion beams in cancer therapy (also known as hadron therapy) is steadily growing worldwide; therefore, the demand for more efficient dosimetry systems is also increasing because daily quality assurance (QA) measurements of hadron radiotherapy is one of the most complex and time consuming tasks. The aim of this study is to develop a two-dimensional dosimetry system that offers high spatial resolution, a large field of view, quick data response, and a linear dose–response relationship.

We demonstrate the dose imaging performance of a novel digital dose imager using carbon ion beams for hadron therapy. The dose imager is based on a newly-developed gaseous detector, a well-type glass gas electron multiplier. The imager is successfully operated in a hadron therapy facility with clinical intensity beams for radiotherapy. It features a high spatial resolution of less than 1 mm and an almost linear dose–response relationship with no saturation and very low linear-energy-transfer dependence. Experimental results show that the dose imager has the potential to improve dosimetry accuracy for daily QA.},
 pages = {72--78},
 title = {Development and characterization of optical readout well-type glass gas electron multiplier for dose imaging in clinical carbon beams},
 volume = {82},
 year = {2021}
}