Accurate condensed history Monte Carlo simulation of electron transport. I. EGSnrc, the new EGS4 version.
about
GPU-based high-performance computing for radiation therapyEnhancement of natural background gamma-radiation dose around uranium microparticles in the human bodyQuantitative ionization chamber alignment to a water surface: Theory and simulation.Radioembolization and the Dynamic Role of (90)Y PET/CTThe influence of field size on stopping-power ratios in- and out-of-field: quantitative data for the BrainLAB m3 micro-multileaf collimator.Simulations using patient data to evaluate systematic errors that may occur in 4D treatment planning: a proof of concept study.Adaptation of GEANT4 to Monte Carlo dose calculations based on CT data.Monte Carlo reference data sets for imaging research: Executive summary of the report of AAPM Research Committee Task Group 195.Comprehensive evaluation of a commercial macro Monte Carlo electron dose calculation implementation using a standard verification data set.Charged particle transport in magnetic fields in EGSnrc.Validation of total skin electron irradiation (TSEI) technique dosimetry data by Monte Carlo simulation.Physical aspects of dynamic stereotactic radiosurgery with very small photon beams (1.5 and 3 mm in diameter).A local effect model-based interpolation framework for experimental nanoparticle radiosensitisation data.Efficient photon beam dose calculations using DOSXYZnrc with BEAMnrc.MicroRT-small animal conformal irradiator.Condensed history Monte Carlo methods for photon transport problems.Considerations and limitations of fast Monte Carlo electron transport in radiation therapy based on precalculated data.Individualized 131I-mIBG therapy in the management of refractory and relapsed neuroblastoma.High resolution entry and exit Monte Carlo dose calculations from a linear accelerator 6 MV beam under the influence of transverse magnetic fields.Fast, accurate photon beam accelerator modeling using BEAMnrc: a systematic investigation of efficiency enhancing methods and cross-section data.Dosimetric consequences of misalignment and realignment in prostate 3DCRT using intramodality ultrasound image guidance.Monte Carlo simulation of irradiation and killing in three-dimensional cell populations with lognormal cellular uptake of radioactivity.Four-dimensional dosimetry validation and study in lung radiotherapy using deformable image registration and Monte Carlo techniques.Monte Carlo simulation of large electron fieldsMonte Carlo study of the energy and angular dependence of the response of plastic scintillation detectors in photon beams.Unfolding linac photon spectra and incident electron energies from experimental transmission data, with direct independent validation.Monte Carlo study of radiation dose enhancement by gadolinium in megavoltage and high dose rate radiotherapy.Summary and recommendations of a National Cancer Institute workshop on issues limiting the clinical use of Monte Carlo dose calculation algorithms for megavoltage external beam radiation therapy.An investigation of kV CBCT image quality and dose reduction for volume-of-interest imaging using dynamic collimation.Extension of the NCAT phantom for the investigation of intra-fraction respiratory motion in IMRT using 4D Monte Carlo.Calibration of Traceable Solid Mock (131)I Phantoms Used in an International SPECT Image Quantification Comparison.Improved efficiency in Monte Carlo simulation for passive-scattering proton therapy.Clinical evaluation of radiotherapy for advanced esophageal cancer after metallic stent placement.Reference dosimetry in magnetic fields: formalism and ionization chamber correction factors.Monte Carlo simulation of a compact microbeam radiotherapy system based on carbon nanotube field emission technology.The accuracy of EGSnrc, Geant4 and PENELOPE Monte Carlo systems for the simulation of electron scatter in external beam radiotherapy.Room scatter effects in Total Skin Electron Irradiation: Monte Carlo simulation study.Perturbation effects of the carbon fiber-PEEK screws on radiotherapy dose distribution.TOPAS: an innovative proton Monte Carlo platform for research and clinical applications.A GPU tool for efficient, accurate, and realistic simulation of cone beam CT projections.
P2860
Q28658215-056E0764-FFCC-4341-AA7D-14237E8CB2A7Q29037479-3E6CFC3E-ACDE-4080-B574-1C23BCDD6D9CQ30252497-3FD8623C-C221-4FDD-8798-234E6F584D3FQ30457523-E48D92F4-445F-409A-A54A-E81A0ACB1210Q30577392-635DBAC6-685D-4007-978C-5921BF317D1DQ30665118-0D1A36D6-A89C-40D0-96D8-5208744A19DAQ30976072-02B29DC5-8413-44FA-BEF2-C7E6F49427DEQ31000560-457A8D2F-489C-4CB2-8FEA-1E8CC4C1D5DFQ31049984-B3370B34-DD02-457F-BD81-89EA0739547BQ31111883-39425964-F164-4351-B94E-3B056624F5BBQ31117358-E032FCD4-32C7-4397-8BA7-266D85BF90E0Q31133473-BE2BD237-7776-41FE-9AD8-5246FB3CE2E4Q31163792-DB1FE854-6BA2-4BE1-A453-3C28299DD308Q33257030-A5E44C9C-7329-43EE-B5E2-9BF7DB9BFE57Q33314863-03E5D135-A3BE-4D46-B582-5826E291D182Q33343187-78A5F466-F1AA-4E70-B941-7AD14B62D959Q33418858-1251BE74-397A-42F6-98B6-7033000C00D4Q33429535-5BEF0291-2C15-4F23-A811-688B852E3A82Q33502287-891B66D2-85AB-4D4A-BF22-FB4182684014Q33525975-2A915F17-1503-40B4-8728-212B9FBE3B2AQ33633238-475AA41D-2800-4437-A48C-465CD9303A93Q33642556-06CBD8A5-10A3-481D-9A24-D024DBE96098Q33933920-A9A087FD-BF34-4D3E-B868-BD49FCD22D83Q33978702-260A6745-E2EC-42B9-8D76-6A860DFAD9A3Q34185389-F51FB747-7D9D-473E-90A8-CD3A50CBEC14Q34467459-0843D124-B9A3-4556-A7D3-762B43998195Q35294967-DE8DE7C5-1EDB-4A99-955C-01C2E02EA532Q35624289-8E07EC6F-979D-4627-B12E-95FCB4EDBAE7Q35761417-978C153D-334A-4F5F-A5B7-88531EE18624Q35786321-518E48E9-1B2D-4D0E-8BC4-B2AC34E8B66FQ35804494-40A26177-B36D-49DD-BC4B-AF9FD60D2E44Q35838148-75E04D2A-F5B7-4E5F-A891-1DD086650E1DQ36066283-3001E0F3-8A08-4FAE-B0C0-28C69F70AC33Q36094120-CFD32FFC-7E2B-4AD9-81F6-B11D473AA471Q36139213-248B2671-A32C-4C47-8B55-6C5838ADADDEQ36292978-F0EFD1A3-AA26-4916-B44D-77AB9C28F8C4Q36307632-2962BEDF-28F9-4E11-BE76-33CE62F3262EQ36310223-89713023-FC9F-4EFD-9E7E-8343DB35265BQ36383104-139E650D-2A27-4B27-B4FE-452EDF1C2695Q36471413-EC21B250-EF0D-43A6-80B5-481C26FA30F8
P2860
Accurate condensed history Monte Carlo simulation of electron transport. I. EGSnrc, the new EGS4 version.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
Accurate condensed history Mon ...... EGSnrc, the new EGS4 version.
@en
Accurate condensed history Mon ...... EGSnrc, the new EGS4 version.
@nl
type
label
Accurate condensed history Mon ...... EGSnrc, the new EGS4 version.
@en
Accurate condensed history Mon ...... EGSnrc, the new EGS4 version.
@nl
prefLabel
Accurate condensed history Mon ...... EGSnrc, the new EGS4 version.
@en
Accurate condensed history Mon ...... EGSnrc, the new EGS4 version.
@nl
P2860
P356
P1433
P1476
Accurate condensed history Mon ...... EGSnrc, the new EGS4 version.
@en
P2093
I Kawrakow
P2860
P304
P356
10.1118/1.598917
P407
P577
2000-03-01T00:00:00Z