2016
Monte Carlo simulations of 3He ion physical characteristics in a water phantom and evaluation of radiobiological effectiveness
Taleei R, Guan F, Peeler C, Bronk L, Patel D, Mirkovic D, Grosshans DR, Mohan R, Titt U. Monte Carlo simulations of 3He ion physical characteristics in a water phantom and evaluation of radiobiological effectiveness. Medical Physics 2016, 43: 761-776. PMID: 26843239, DOI: 10.1118/1.4939440.Peer-Reviewed Original ResearchConceptsMonte Carlo codeEnergy depositionCarlo codeLineal energyEnergy distributionRadiation beam qualitiesSecondary particle productionDifferent Monte Carlo codesDepth dose curvesPrimary beam parametersGaussian energy distributionMonte Carlo systemHelium ionsBeam qualityMicrodosimetric parametersMonte Carlo methodBeam parametersEnergy spectrumIncident beamBragg curveRadiobiological effectivenessBragg peakHalf maximumProton doseFull width
2014
TH‐A‐19A‐05: Modeling Physics Properties and Biologic Effects Induced by Proton and Helium Ions
Taleei R, Titt U, Peeler C, Guan F, Mirkovic D, Grosshans D, Mohan R. TH‐A‐19A‐05: Modeling Physics Properties and Biologic Effects Induced by Proton and Helium Ions. Medical Physics 2014, 41: 534-534. DOI: 10.1118/1.4889538.Peer-Reviewed Original ResearchMonte Carlo codeFragmentation cross sectionsHelium ionsBragg peakCarlo codeCross sectionsGeneral purpose Monte Carlo codeLight ionsMicrodosimetric parametersProton beamEnergy spectrumCarbon ionsBragg curveDepth dosePhysics propertiesWater phantomPhysical propertiesRBE increasesProtonsMonte Carlo simulationsDose distributionFLUKABeamIonsCurve calculations