Linear Accelerators (LINACS) PDF
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Uploaded by GloriousRhodochrosite
King Khalid University
Dr. Khalid I Hussein
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Summary
This document provides a comprehensive overview of linear accelerators (LINACS), focusing on the electron beam transport systems, treatment head components, and production of clinical x-ray beams. Information on the material used and different types of beams are discussed.
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Linear Accelerators (LINACS) ā In medium-energy and high-energy linacs an electron beam transport system is used to transport electrons from the accelerating waveguide to: ā X-ray target in x-ray beam therapy ā Beam exit window in electron beam therapy ā Beam transport sys...
Linear Accelerators (LINACS) ā In medium-energy and high-energy linacs an electron beam transport system is used to transport electrons from the accelerating waveguide to: ā X-ray target in x-ray beam therapy ā Beam exit window in electron beam therapy ā Beam transport system consists of: ā Drift tubes ā Bending magnets ā Steering coild ā Focusing coils ā Energy slits M.Sc. Medical Physics Dr. Khalid I Hussein Linear Accelerators (LINACS) Electron beam transport ā Three systems for electron beam bending have been developed: 90o bending 270o bending 112.5o bending M.Sc. Medical Physics Dr. Khalid I Hussein Linear Accelerators (LINACS) Linac treatment head ā Electrons forming the electron pencil beam: ā Originate in the electron gun. ā Are accelerated in the accelerating waveguide to the desired kinetic energy. ā Are brought through the beam transport system into the linac treatment head. ā The clinical x-ray beams or clinical electron beams are produced in the linac treatment head. M.Sc. Medical Physics Dr. Khalid I Hussein Linear Accelerators (LINACS) ā Components of a modern linac treatment head: ā Several retractable x-ray targets (one for each x-ray beam energy). ā Flattening filters (one for each x-ray beam energy). ā Scattering foils for production of clinical electron beams. ā Primary collimator. ā Adjustable secondary collimator with independent jaw motion. ā Dual transmission ionization chamber. ā Field defining light and range finder. ā Retractable wedges. ā Multileaf collimator (MLC). M.Sc. Medical Physics Dr. Khalid I Hussein Linear Accelerators (LINACS) Production of clinical x-ray beams ā Clinical x-ray beams are produced with: Appropriate x-ray target. Appropriate flattening filter. ā Clinical electron beams are produced by: ā Either scattering the pencil electron beam with an appropriate scattering foil. ā Or deflecting and scanning the pencil beam magnetically to cover the field size required for electron treatment. ā The flattening filters and scattering foils are mounted on a rotating carousel or sliding drawer. M.Sc. Medical Physics Dr. Khalid I Hussein Linear Accelerators (LINACS) Production of clinical x-ray beams ā Electrons: ā Originate in the electron gun. ā Are accelerated in the accelerating waveguide to the desired kinetic energy. ā Are brought through the beam transport system into the linac treatment head. ā The clinical x-ray beams and clinical electron beams are produced in the linac treatment head. M.Sc. Medical Physics Dr. Khalid I Hussein Linear Accelerators (LINACS) Production of clinical x-ray beams ā Megavoltage clinical x-ray beams: Are produced in a linac x-ray target Are flattened with a flattening filter. M.Sc. Medical Physics Dr. Khalid I Hussein Linear Accelerators (LINACS) Beam Flattening Filter (Photon Beam Mode) āRequired to create a flatten beam with uniformity and symmetry. āMaterial used , Tungsten, steel, lead, and aluminum. āDual energy photon need two flattening filters. M.Sc. Medical Physics Dr. Khalid I Hussein Linear Accelerators (LINACS) Scattering Foils (Electron Beam Mode) āRequired to broadened the pencil beam. āDifferent scattering foil for each electron beam energy. ā made of aluminum or copper M.Sc. Medical Physics Dr. Khalid I Hussein
