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IAEA TRS 380 (2000): Absorbed Dose Determination in External Beam Radiotherapy: An International Code of Practice for

Dosimetry based on Standards of Absorbed Dose to Water- International Atomic Energy Agency, Vienna.

IPEM Code of practice for electron dosimetry,(2003), Phys Med Biol, 48:2929

IAEA TRS 381 (1997): The use of plane parallel chambers in high energy electron and photon beams - International Atomic

Energy Agency, Vienna

AAPM Task Group 25 (1991) : Clinical electron-beam dosimetry - Med. Phys. 18(1),pp 73-109.

AAPM Task Group 70 (2009)Recommendations for clinical electron beam dosimetry: Supplement to the recommendations of

Task Group 25 -Med. Phys. 36(7), 3240-3269.

ICRU report 35 (1984): Electron beams with energies between 1 and 50 MeV- International Commission on Radiation Units

and Measurements, Bethesda, Maryland.

Green D and Williams PC (1985), Linear Accelerators for Radiation Therapy, IOP Publishing, ISBN 07503 0476 6

Gibbons J P (2000), Monitor Unit Calculations for External Photon and Electron Beams, Advanced Medical Physics Publishing

Inc, ISBN: 1-883526-08-6

Khan F.M. (2003): The Physics of Radiation Therapy- Williams and Wilkins, Baltimore, Maryland.

Klevenhagen S.C.(1993): Physics and Dosimetry of Therapy Electron Beams- Medical Physics Publishing, Madison, Wisconsin.

Klevenhagen S.C.(1985): Physics of Electron Beam Therapy, Medical Physics Handbooks 13, Adam Hilger Ltd, ISBN 0-85274-

781-0

Klevenhagen S. C (1979) High Energy Electrons in Radiotherapy (Eindhoven: Philips).

Hogstrom KR (1991) Treatment planning in electron beam therapy. Front Radiat Ther Oncol 25, 30-52+61-63.

Hogstrom KR and Almond PR (2006). Review of electron beam therapy physics. Phys.Med. Biol. 51 (R544-R489).

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