Add to ORKGThe IBA Company develops an energy selection system coupled to a superconducting cyclotron to generate light ion beams for hadron therapy with energy ranging from 100 MeV to 400 MeV per nucleon. Transmission properties of this energy selection system and fragmentation of the incident ion beams on the energy degrader are studied using the PHITS Monte Carlo simulation code
International audienceHadron therapy uses light charged particles beams (mainly proton and 12C ions)...
Monte Carlo simulations have been performed in order to evaluate the efficiencies of several light i...
In Charged Particle Therapy (PT) proton or 12C beams are used to treat deep-seated solid tumors expl...
Protons and carbon ion beams for hadron therapy can be delivered by cyclotrons with a fixed energy. ...
In cyclotron based proton therapy an energy degrader is needed to modulate the proton beam energy. T...
In proton therapy, the potential of ultra-high (FLASH) dose-rate for cancer treatment is being explo...
The Heavy Ion Medical Accelerator in Chiba (HIMAC), at the National Institutes for Quantum and Radio...
In Proton therapy, the potential of using high dose rates in cancer treatment is being explored. Hig...
Nuclear fragmentation processes are relevant in different fields of basic research and applied physi...
The 88-Inch Cyclotron facility consists of a sector-focused, variable energy cyclotron fed by two El...
Nowadays there is a growing interest in particle therapy treatments exploiting light ion beams agai...
The performance of the energy degrader in terms of beam properties directly impacts the design and c...
Hadrontherapy, also called Particle Therapy, is a consolidated clinical treatment for solid tumors b...
Along with an increased popularity of heavy ions in cancer therapy, 4He ions have regained the inter...
In this study, fragmentation yields of carbon therapy beams are estimated using the Geant4 simulatio...
International audienceHadron therapy uses light charged particles beams (mainly proton and 12C ions)...
Monte Carlo simulations have been performed in order to evaluate the efficiencies of several light i...
In Charged Particle Therapy (PT) proton or 12C beams are used to treat deep-seated solid tumors expl...
Protons and carbon ion beams for hadron therapy can be delivered by cyclotrons with a fixed energy. ...
In cyclotron based proton therapy an energy degrader is needed to modulate the proton beam energy. T...
In proton therapy, the potential of ultra-high (FLASH) dose-rate for cancer treatment is being explo...
The Heavy Ion Medical Accelerator in Chiba (HIMAC), at the National Institutes for Quantum and Radio...
In Proton therapy, the potential of using high dose rates in cancer treatment is being explored. Hig...
Nuclear fragmentation processes are relevant in different fields of basic research and applied physi...
The 88-Inch Cyclotron facility consists of a sector-focused, variable energy cyclotron fed by two El...
Nowadays there is a growing interest in particle therapy treatments exploiting light ion beams agai...
The performance of the energy degrader in terms of beam properties directly impacts the design and c...
Hadrontherapy, also called Particle Therapy, is a consolidated clinical treatment for solid tumors b...
Along with an increased popularity of heavy ions in cancer therapy, 4He ions have regained the inter...
In this study, fragmentation yields of carbon therapy beams are estimated using the Geant4 simulatio...
International audienceHadron therapy uses light charged particles beams (mainly proton and 12C ions)...
Monte Carlo simulations have been performed in order to evaluate the efficiencies of several light i...
In Charged Particle Therapy (PT) proton or 12C beams are used to treat deep-seated solid tumors expl...