2020
Monte Carlo simulation of coherently scattered photons based on the inverse‐sampling technique
Muhammad W, Liang Y, Hart GR, Nartowt BJ, Deng J. Monte Carlo simulation of coherently scattered photons based on the inverse‐sampling technique. Acta Crystallographica Section A: Foundations And Advances 2020, 76: 70-78. PMID: 31908350, PMCID: PMC7045906, DOI: 10.1107/s2053273319014530.Peer-Reviewed Original ResearchComputational efficiencyAnomalous scattering factorsAtomic form factorsAcceptance-rejection techniqueScattering factorsMonte Carlo simulation packageMonte Carlo simulationsMonte Carlo packageAngular distributionsElastic scattering modelMonte Carlo modelTheoretical resultsSimulation algorithmMatrix calculationCarlo simulationsAnomalous scattering effectCarlo modelComplex systemsParticle transportForm factorsScattering modelSimulation accuracySimulation packageCoherent scatteringScattering effect
2017
A measurement-based generalized source model for Monte Carlo dose simulations of CT scans
Ming X, Feng Y, Liu R, Yang C, Zhou L, Zhai H, Deng J. A measurement-based generalized source model for Monte Carlo dose simulations of CT scans. Physics In Medicine And Biology 2017, 62: 1759-1776. PMID: 28079526, PMCID: PMC5857954, DOI: 10.1088/1361-6560/aa5911.Peer-Reviewed Original ResearchConceptsMonte Carlo dose simulationsGeneralized source modelEnergy spectrumFluence distributionDose profilesCentral axis percent depth dose curvePercent depth dose curvesDose simulationsDepth dose curvesMonte Carlo user codeSource distributionBeam inputDose curvesFilm measurementsCTDI phantomCT scannerOutput factorsAbsolute dose comparisonsMonte Carlo simulationsDose distributionSource modelCarlo simulationsCircular sourceGE LightspeedScanner specifications
2001
Monte Carlo based treatment planning for modulated electron beam radiation therapy
Lee M, Deng J, Li J, Jiang S, Ma C. Monte Carlo based treatment planning for modulated electron beam radiation therapy. Physics In Medicine And Biology 2001, 46: 2177-2199. PMID: 11512618, DOI: 10.1088/0031-9155/46/8/310.Peer-Reviewed Original ResearchConceptsElectron multileaf collimatorIntensity mapsDose distributionElectron radiation therapyElectron beamletsElectron energyElectron beam radiation therapyAir scatteringMonte CarloBremsstrahlung contributionConformal dose distributionsMonte Carlo simulationsBeamletsScatter dosesTreatment planning systemElectronsMultileaf collimatorCarlo simulationsBreast plansIrregular targetsLeaf transportCarloScatteringMonte Carlo generationCollimator
2000
Monte Carlo verification of IMRT dose distributions from a commercial treatment planning optimization system
Ma C, Pawlicki T, Jiang SB, Li JS, Deng J, Mok E, Kapur A, Xing L, Ma L, Boyer AL. Monte Carlo verification of IMRT dose distributions from a commercial treatment planning optimization system. Physics In Medicine And Biology 2000, 45: 2483-2495. PMID: 11008950, DOI: 10.1088/0031-9155/45/9/303.Peer-Reviewed Original ResearchConceptsMonte Carlo simulationsFinite-size pencil beam (FSPB) algorithmCorvus systemCarlo simulationsOptimization systemIMRT dose distributionsRadiotherapy dose calculationsMonte Carlo treatment planning systemPencil beam algorithmDose distributionMonte CarloBeam algorithmHeterogeneous phantomsMonte Carlo verificationHomogeneous phantomBeam energyCylindrical water phantomIMRT fieldsDose calculationsWater phantomTreatment planning systemField sizeTarget shapeAlgorithmSimulationsEnergy- and intensity-modulated electron beams for radiotherapy
Ma C, Pawlicki T, Lee MC, Jiang SB, Li JS, Deng J, Yi B, Mok E, Boyer AL. Energy- and intensity-modulated electron beams for radiotherapy. Physics In Medicine And Biology 2000, 45: 2293-2311. PMID: 10958195, DOI: 10.1088/0031-9155/45/8/316.Peer-Reviewed Original ResearchConceptsModulated electron radiotherapyIntensity-modulated electron beamElectron beamMultileaf collimatorElectron beam energyInter-leaf leakageDose distributionElectron intraMonte Carlo dose calculationsPencil beam algorithmLeaf endsBeam energyPhoton beamsElectron radiotherapyOblique incidencePatient surfaceMonte Carlo methodBeamBeam algorithmField shapeMonte Carlo simulationsDose calculationsSuperficial targetsCarlo methodCarlo simulations