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Journal Abstract Search

141 related items for PubMed ID: 29762130

  • 1.
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  • 2. Experimental determination of magnetic field quality conversion factors for eleven ionization chambers in 1.5 T and 0.35 T MR-linac systems.
    Orlando N, Crosby J, Glide-Hurst C, Culberson W, Keller B, Sarfehnia A.
    Med Phys; 2024 Apr; 51(4):2998-3009. PubMed ID: 38060696
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  • 4. Dosimetry in 1.5 T MR-Linacs: Monte Carlo determination of magnetic field correction factors and investigation of the air gap effect.
    Margaroni V, Pappas EP, Episkopakis A, Pantelis E, Papagiannis P, Marinos N, Karaiskos P.
    Med Phys; 2023 Feb; 50(2):1132-1148. PubMed ID: 36349535
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  • 5. Experimental and Monte Carlo-based determination of magnetic field correction factors k B , Q $k_{B,Q}$ in high-energy photon fields for two ionization chambers.
    Alissa M, Zink K, Kapsch RP, Schoenfeld AA, Frick S, Czarnecki D.
    Med Phys; 2023 Jul; 50(7):4578-4589. PubMed ID: 36897832
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  • 6. Quantifying uncertainties associated with reference dosimetry in an MR-Linac.
    Iakovenko V, Keller B, Malkov VN, Sahgal A, Sarfehnia A.
    J Appl Clin Med Phys; 2023 Nov; 24(11):e14087. PubMed ID: 37354202
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  • 7. Experimental measurement of ionization chamber angular response and associated magnetic field correction factors in MR-linac.
    Iakovenko V, Keller B, Sahgal A, Sarfehnia A.
    Med Phys; 2020 Apr; 47(4):1940-1948. PubMed ID: 31955432
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  • 8. Dosimetry in magnetic fields with dedicated MR-compatible ionization chambers.
    Shukla BK, Spindeldreier CK, Schrenk O, Bakenecker AC, Klüter S, Kawrakow I, Runz A, Burigo L, Karger CP, Greilich S, Pfaffenberger A.
    Phys Med; 2020 Dec; 80():259-266. PubMed ID: 33220650
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  • 11. Technical Note: Consistency of PTW30013 and FC65-G ion chamber magnetic field correction factors.
    Woodings SJ, van Asselen B, van Soest TL, de Prez LA, Lagendijk JJW, Raaymakers BW, Wolthaus JWH.
    Med Phys; 2019 Aug; 46(8):3739-3745. PubMed ID: 31131902
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  • 12. Sensitive volume effects on Monte Carlo calculated ion chamber response in magnetic fields.
    Malkov VN, Rogers DWO.
    Med Phys; 2017 Sep; 44(9):4854-4858. PubMed ID: 28636763
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  • 13. Reference dosimetry in magnetic fields: formalism and ionization chamber correction factors.
    O'Brien DJ, Roberts DA, Ibbott GS, Sawakuchi GO.
    Med Phys; 2016 Aug; 43(8):4915. PubMed ID: 27487908
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  • 14. Experimental determination of magnetic field correction factors for ionization chambers in parallel and perpendicular orientations.
    Pojtinger S, Nachbar M, Ghandour S, Pisaturo O, Pachoud M, Kapsch RP, Thorwarth D.
    Phys Med Biol; 2020 Dec 22; 65(24):245044. PubMed ID: 33181493
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  • 15. [A Survey of Dosimetry in the Magnetic Field of MR-Linacs].
    Sato Y, Abe K, Tsuneda M, Yasui K, Kawachi T, Tohyama N, Mizuno H, Fujita Y.
    Igaku Butsuri; 2023 Dec 22; 43(4):107-124. PubMed ID: 38417889
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  • 16. The role of the construction and sensitive volume of compact ionization chambers on the magnetic field-dependent dose response.
    Delfs B, Blum I, Tekin T, Schönfeld AB, Kranzer R, Poppinga D, Giesen U, Langner F, Kapsch RP, Poppe B, Looe HK.
    Med Phys; 2021 Aug 22; 48(8):4572-4585. PubMed ID: 34032298
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  • 17. Water calorimetry in MR-linac: Direct measurement of absorbed dose and determination of chamber k Q mag.
    D'Souza M, Nusrat H, Iakovenko V, Keller B, Sahgal A, Renaud J, Sarfehnia A.
    Med Phys; 2020 Dec 22; 47(12):6458-6469. PubMed ID: 32970325
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  • 18. Towards reference dosimetry for the MR-linac: magnetic field correction of the ionization chamber reading.
    Smit K, van Asselen B, Kok JG, Aalbers AH, Lagendijk JJ, Raaymakers BW.
    Phys Med Biol; 2013 Sep 07; 58(17):5945-57. PubMed ID: 23938362
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  • 19. 2D convolution kernels of ionization chambers used for photon-beam dosimetry in magnetic fields: the advantage of small over large chamber dimensions.
    Looe HK, Delfs B, Poppinga D, Harder D, Poppe B.
    Phys Med Biol; 2018 Mar 29; 63(7):075013. PubMed ID: 29516870
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