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Journal Abstract Search

212 related items for PubMed ID: 30666678

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  • 24. Surface and near-surface dose measurements at beam entry and exit in a 1.5 T MR-Linac using optically stimulated luminescence dosimeters.
    Kim A, Lim-Reinders S, Ahmad SB, Sahgal A, Keller BM.
    Phys Med Biol; 2020 Feb 12; 65(4):045012. PubMed ID: 31860896
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  • 25. High resolution entry and exit Monte Carlo dose calculations from a linear accelerator 6 MV beam under the influence of transverse magnetic fields.
    Oborn BM, Metcalfe PE, Butson MJ, Rosenfeld AB.
    Med Phys; 2009 Aug 12; 36(8):3549-59. PubMed ID: 19746789
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  • 26. Development and validation of a 1.5 T MR-Linac full accelerator head and cryostat model for Monte Carlo dose simulations.
    Friedel M, Nachbar M, Mönnich D, Dohm O, Thorwarth D.
    Med Phys; 2019 Nov 12; 46(11):5304-5313. PubMed ID: 31532829
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  • 27. Evaluation of a commercial MRI Linac based Monte Carlo dose calculation algorithm with GEANT4.
    Ahmad SB, Sarfehnia A, Paudel MR, Kim A, Hissoiny S, Sahgal A, Keller B.
    Med Phys; 2016 Feb 12; 43(2):894-907. PubMed ID: 26843250
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  • 28. Electron contamination modeling and reduction in a 1 T open bore inline MRI-linac system.
    Oborn BM, Kolling S, Metcalfe PE, Crozier S, Litzenberg DW, Keall PJ.
    Med Phys; 2014 May 12; 41(5):051708. PubMed ID: 24784374
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  • 29. Towards MR-guided electron therapy: Measurement and simulation of clinical electron beams in magnetic fields.
    Kueng R, Oborn BM, Roberts NF, Causer T, Stampanoni MFM, Manser P, Keall PJ, Fix MK.
    Phys Med; 2020 Oct 12; 78():83-92. PubMed ID: 32950017
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  • 30. Technical Note: Experimental verification of EGSnrc calculated depth dose within a parallel magnetic field in a lung phantom.
    Ghila A, Fallone BG, Rathee S.
    Med Phys; 2018 Dec 12; 45(12):5653-5658. PubMed ID: 30260003
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  • 31. Effect of electron beam obliquity on lateral buildup ratio: a Monte Carlo dosimetry evaluation.
    Chow JC, Grigorov GN.
    Phys Med Biol; 2007 Jul 07; 52(13):3965-77. PubMed ID: 17664588
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  • 34. Validation of total skin electron irradiation (TSEI) technique dosimetry data by Monte Carlo simulation.
    Nevelsky A, Borzov E, Daniel S, Bar-Deroma R.
    J Appl Clin Med Phys; 2016 Jul 08; 17(4):418-429. PubMed ID: 27455502
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  • 35. Electron contamination modeling and skin dose in 6 MV longitudinal field MRIgRT: Impact of the MRI and MRI fringe field.
    Oborn BM, Metcalfe PE, Butson MJ, Rosenfeld AB, Keall PJ.
    Med Phys; 2012 Feb 08; 39(2):874-90. PubMed ID: 22320797
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  • 36. Monte Carlo study of ionization chamber magnetic field correction factors as a function of angle and beam quality.
    Malkov VN, Rogers DWO.
    Med Phys; 2018 Feb 08; 45(2):908-925. PubMed ID: 29218730
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  • 37. Surface dosimetry for oblique tangential photon beams: a Monte Carlo simulation study.
    Chow JC, Grigorov GN.
    Med Phys; 2008 Jan 08; 35(1):70-6. PubMed ID: 18293563
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  • 38. Validation of the dosimetry of total skin irradiation techniques by Monte Carlo simulation.
    Li R, Tseng W, Wu Q.
    J Appl Clin Med Phys; 2020 Aug 08; 21(8):107-119. PubMed ID: 32559022
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  • 39. Dose perturbations at tissue interfaces during parallel linac-MR treatments: The "Lateral Scatter Electron Return Effect" (LS-ERE).
    Steciw S, Fallone BG, Yip E.
    Med Phys; 2024 Nov 08; 51(11):8506-8523. PubMed ID: 39153227
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  • 40. Collimator scatter factor: Monte Carlo and in-air measurements approaches.
    Fogliata A, Stravato A, Reggiori G, Tomatis S, Würfel J, Scorsetti M, Cozzi L.
    Radiat Oncol; 2018 Jul 11; 13(1):126. PubMed ID: 29996873
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