2022
Optimization of FLASH proton beams using a track‐repeating algorithm
Wang Q, Titt U, Mohan R, Guan F, Zhao Y, Yang M, Yepes P. Optimization of FLASH proton beams using a track‐repeating algorithm. Medical Physics 2022, 49: 6684-6698. PMID: 35900902, DOI: 10.1002/mp.15849.Peer-Reviewed Original Research
2019
A Monte Carlo study of pinhole collimated Cerenkov luminescence imaging integrated with radionuclide treatment
Geng C, Ai Y, Tang X, Shu D, Gong C, Guan F. A Monte Carlo study of pinhole collimated Cerenkov luminescence imaging integrated with radionuclide treatment. Physical And Engineering Sciences In Medicine 2019, 42: 481-487. PMID: 30830649, DOI: 10.1007/s13246-019-00744-7.Peer-Reviewed Original Research
2018
A mechanistic relative biological effectiveness model-based biological dose optimization for charged particle radiobiology studies
Guan F, Geng C, Carlson DJ, H D, Bronk L, Gates D, Wang X, Kry SF, Grosshans D, Mohan R. A mechanistic relative biological effectiveness model-based biological dose optimization for charged particle radiobiology studies. Physics In Medicine And Biology 2018, 64: 015008. PMID: 30523805, DOI: 10.1088/1361-6560/aaf5df.Peer-Reviewed Original Research
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 ResearchMeSH KeywordsCell DeathHeliumIsotopesMonte Carlo MethodPhantoms, ImagingRelative Biological EffectivenessWaterConceptsMonte 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
2015
A Monte Carlo-based radiation safety assessment for astronauts in an environment with confined magnetic field shielding
Geng C, Tang X, Gong C, Guan F, Johns J, Shu D, Chen D. A Monte Carlo-based radiation safety assessment for astronauts in an environment with confined magnetic field shielding. Journal Of Radiological Protection 2015, 35: 777-788. PMID: 26484984, DOI: 10.1088/0952-4746/35/4/777.Peer-Reviewed Original ResearchConceptsGalactic cosmic radiationSolar particle eventsMagnetic fieldActive shielding techniqueToroidal magnetic fieldMonte Carlo toolkitMagnetic field strengthGCR particlesParticle eventsCosmic radiationParticle fluenceSPE protonsRadiation fieldMonte CarloPassive shielding techniquesField strengthDose equivalentAdditional shieldingShielding techniqueRadiation safety assessmentActive shieldingAnthropomorphic phantomRadiation protectionFieldShieldingCalculations of S values and effective dose for the radioiodine carrier and surrounding individuals based on Chinese hybrid reference phantoms using the Monte Carlo technique
Geng C, Tang X, Qian W, Guan F, Johns J, Yu H, Gong C, Shu D, Chen D. Calculations of S values and effective dose for the radioiodine carrier and surrounding individuals based on Chinese hybrid reference phantoms using the Monte Carlo technique. Journal Of Radiological Protection 2015, 35: 707-717. PMID: 26344387, DOI: 10.1088/0952-4746/35/3/707.Peer-Reviewed Original ResearchGEANT4 calculations of neutron dose in radiation protection using a homogeneous phantom and a Chinese hybrid male phantom
Geng C, Tang X, Guan F, Johns J, Vasudevan L, Gong C, Shu D, Chen D. GEANT4 calculations of neutron dose in radiation protection using a homogeneous phantom and a Chinese hybrid male phantom. Radiation Protection Dosimetry 2015, 168: 433-440. PMID: 26156875, DOI: 10.1093/rpd/ncv364.Peer-Reviewed Original ResearchMeSH KeywordsComputer SimulationHumansMaleMonte Carlo MethodNeutronsPhantoms, ImagingRadiation DosageRadiation ProtectionRadiometryConceptsNeutron dose calculationsDepth dose distributionsHomogeneous phantomThermal energy rangeS-matrix correctionsClose simulation resultsPhysics listsGeant4 calculationsNeutron energyEnergy rangeThermal scatteringNeutron doseRadiation protectionGeant4Conversion coefficientsMCNP5Dose conversion coefficientsDose distributionDose calculationsMatrix correctionMale phantomPhantomCalculationsEnergyFluence