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3312 related items for PubMed ID: 12945965

  • 1. Photonuclear dose calculations for high-energy photon beams from Siemens and Varian linacs.
    Chibani O, Ma CM.
    Med Phys; 2003 Aug; 30(8):1990-2000. PubMed ID: 12945965
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  • 2. Neutron dose equivalent and neutron spectra in tissue for clinical linacs operating at 15, 18 and 20 MV.
    Martínez-Ovalle SA, Barquero R, Gómez-Ros JM, Lallena AM.
    Radiat Prot Dosimetry; 2011 Nov; 147(4):498-511. PubMed ID: 21233098
    [Abstract] [Full Text] [Related]

  • 3. Out-of-field doses and neutron dose equivalents for electron beams from modern Varian and Elekta linear accelerators.
    Cardenas CE, Nitsch PL, Kudchadker RJ, Howell RM, Kry SF.
    J Appl Clin Med Phys; 2016 Jul 08; 17(4):442-455. PubMed ID: 27455499
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  • 4. Calculation of Nuclear Particles Production at High-Energy Photon Beams from a Linac Operating at 6, 10 and 15 MV.
    Marchesini R, Bettega D, Calzolari P, Pignoli E.
    Radiat Prot Dosimetry; 2017 May 01; 174(4):471-477. PubMed ID: 27522047
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  • 5. Are neutrons responsible for the dose discrepancies between Monte Carlo calculations and measurements in the build-up region for a high-energy photon beam?
    Ding GX, Duzenli C, Kalach NI.
    Phys Med Biol; 2002 Sep 07; 47(17):3251-61. PubMed ID: 12361221
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  • 6. Superheated drop detector for determination of neutron dose equivalent to patients undergoing high-energy x-ray and electron radiotherapy.
    Nath R, Meigooni AS, King CR, Smolen S, d'Errico F.
    Med Phys; 1993 Sep 07; 20(3):781-7. PubMed ID: 8350837
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  • 7. A Monte Carlo study on neutron and electron contamination of an unflattened 18-MV photon beam.
    Mesbahi A.
    Appl Radiat Isot; 2009 Jan 07; 67(1):55-60. PubMed ID: 18760613
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  • 11. The effect of field modifier blocks on the fast photoneutron dose equivalent from two high-energy medical linear accelerators.
    Hashemi SM, Hashemi-Malayeri B, Raisali G, Shokrani P, Sharafi AA, Jafarizadeh M.
    Radiat Prot Dosimetry; 2008 Jan 07; 128(3):359-62. PubMed ID: 17875628
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  • 12. Undesirable nuclear reactions and induced radioactivity as a result of the use of the high-energy therapeutic beams generated by medical linacs.
    Konefal A, Polaczek-Grelik K, Zipper W.
    Radiat Prot Dosimetry; 2008 Jan 07; 128(2):133-45. PubMed ID: 17569692
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  • 13. Measurement of the neutron leakage from a dedicated intraoperative radiation therapy electron linear accelerator and a conventional linear accelerator for 9, 12, 15(16), and 18(20) MeV electron energies.
    Jaradat AK, Biggs PJ.
    Med Phys; 2008 May 07; 35(5):1711-7. PubMed ID: 18561646
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  • 14. Monte Carlo study of in-field and out-of-field dose distributions from a linear accelerator operating with and without a flattening-filter.
    Almberg SS, Frengen J, Lindmo T.
    Med Phys; 2012 Aug 07; 39(8):5194-203. PubMed ID: 22894444
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  • 15. Bone and mucosal dosimetry in skin radiation therapy: a Monte Carlo study using kilovoltage photon and megavoltage electron beams.
    Chow JC, Jiang R.
    Phys Med Biol; 2012 Jun 21; 57(12):3885-99. PubMed ID: 22642985
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  • 16. Experimental determination of peripheral doses for different IMRT techniques delivered by a Siemens linear accelerator.
    Wiezorek T, Voigt A, Metzger N, Georg D, Schwedas M, Salz H, Wendt TG.
    Strahlenther Onkol; 2008 Feb 21; 184(2):73-9. PubMed ID: 18259698
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  • 17. Ambient neutron dose equivalent outside concrete vault rooms for 15 and 18 MV radiotherapy accelerators.
    Martínez-Ovalle SA, Barquero R, Gómez-Ros JM, Lallena AM.
    Radiat Prot Dosimetry; 2012 Mar 21; 148(4):457-64. PubMed ID: 21750004
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