2022
Roadmap: helium ion therapy
Mairani A, Mein S, Blakely E, Debus J, Durante M, Ferrari A, Fuchs H, Georg D, Grosshans DR, Guan F, Haberer T, Harrabi S, Horst F, Inaniwa T, Karger CP, Mohan R, Paganetti H, Parodi K, Sala P, Schuy C, Tessonnier T, Titt U, Weber U. Roadmap: helium ion therapy. Physics In Medicine And Biology 2022, 67: 15tr02. PMID: 35395649, DOI: 10.1088/1361-6560/ac65d3.Peer-Reviewed Original ResearchConceptsHelium ion beamHeavy ion therapyIon beam therapyHelium ionsIon beamIon therapyRelative biological effectivenessHeavy ion beamsLawrence Berkeley National LaboratoryCarbon ion beamsHelium ion therapyDifferent particle speciesBerkeley National LaboratoryClinical proton beamsCarbon ion therapyLinear energy transferHigh relative biological effectivenessSharp lateral penumbraHigh penetration depthLateral scatteringNeon ionsBeam therapyProton beamParticle speciesTerms of physics
2013
SU‐E‐T‐535: On the Out‐Of‐Field‐Doses Caused by Secondary Particles From Light Ion Beams in Charged Particle Therapy
Titt U, Guan F, Mirkovic D, Mohan R. SU‐E‐T‐535: On the Out‐Of‐Field‐Doses Caused by Secondary Particles From Light Ion Beams in Charged Particle Therapy. Medical Physics 2013, 40: 328-328. DOI: 10.1118/1.4814965.Peer-Reviewed Original ResearchLight ion beamsIon beamSecondary particlesLateral dose distributionSource particlesTherapeutic ion beamsLateral dose profilesHeavy ionsHelium ionsBeam parametersNuclear reactionsLateral doseDose depositionEnergy depositionHeavy particlesIon therapyParticle speciesBragg peakCharged Particle TherapyDose profilesWater phantomTarget fragmentationParticle therapyModulation widthPrimary particles