Electron beam central axis depth dose measurements

Thomas H. Kirby; Robert J. Gastorf; William F. Hanson; Lawrence W. Berkley; William F. Gagnon; John D. Hazle; Robert J. Shalek

doi:10.1118/1.595696

Electron beam central axis depth dose measurements

Thomas H. Kirby, Robert J. Gastorf, William F. Hanson, Lawrence W. Berkley, William F. Gagnon, John D. Hazle, Robert J. Shalek

Imaging Physics

Research output: Contribution to journal › Letter › peer-review

14 Scopus citations

Abstract

Central axis depth dose measurements were made by the Radiological Physics Center on over 70 electron producing machines used in radiation therapy. These data were consistent for each machine model and nominal energy. However, the data show that depth dose relations can vary significantly among different machine models for electron beams having the same nominal energy. Analysis shows that both the method used to achieve beam flatness and the mean incident electron energy determine the central axis depth dose curve past the depth of maximum dose. A linear relation of depth dose versus mean incident electron energy is used to predict depth dose to within 2 mm for most electron beams used clinically at depths greater than d₉₅.

Original language	English (US)
Pages (from-to)	357-361
Number of pages	5
Journal	Medical physics
Volume	12
Issue number	3
DOIs	https://doi.org/10.1118/1.595696
State	Published - May 1985

Keywords

CALIBRATION
DEPTH DOSE DISTRIBUTIONS
ELECTRON BEAMS
ELECTRON DOSIMETRY
RADIOTHERAPY

ASJC Scopus subject areas

Biophysics
Radiology Nuclear Medicine and imaging

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10.1118/1.595696

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title = "Electron beam central axis depth dose measurements",

abstract = "Central axis depth dose measurements were made by the Radiological Physics Center on over 70 electron producing machines used in radiation therapy. These data were consistent for each machine model and nominal energy. However, the data show that depth dose relations can vary significantly among different machine models for electron beams having the same nominal energy. Analysis shows that both the method used to achieve beam flatness and the mean incident electron energy determine the central axis depth dose curve past the depth of maximum dose. A linear relation of depth dose versus mean incident electron energy is used to predict depth dose to within 2 mm for most electron beams used clinically at depths greater than d95.",

keywords = "CALIBRATION, DEPTH DOSE DISTRIBUTIONS, ELECTRON BEAMS, ELECTRON DOSIMETRY, RADIOTHERAPY",

author = "Kirby, {Thomas H.} and Gastorf, {Robert J.} and Hanson, {William F.} and Berkley, {Lawrence W.} and Gagnon, {William F.} and Hazle, {John D.} and Shalek, {Robert J.}",

year = "1985",

month = may,

doi = "10.1118/1.595696",

language = "English (US)",

volume = "12",

pages = "357--361",

journal = "Medical physics",

issn = "0094-2405",

publisher = "AAPM - American Association of Physicists in Medicine",

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TY - JOUR

T1 - Electron beam central axis depth dose measurements

AU - Kirby, Thomas H.

AU - Gastorf, Robert J.

AU - Hanson, William F.

AU - Berkley, Lawrence W.

AU - Gagnon, William F.

AU - Hazle, John D.

AU - Shalek, Robert J.

PY - 1985/5

Y1 - 1985/5

N2 - Central axis depth dose measurements were made by the Radiological Physics Center on over 70 electron producing machines used in radiation therapy. These data were consistent for each machine model and nominal energy. However, the data show that depth dose relations can vary significantly among different machine models for electron beams having the same nominal energy. Analysis shows that both the method used to achieve beam flatness and the mean incident electron energy determine the central axis depth dose curve past the depth of maximum dose. A linear relation of depth dose versus mean incident electron energy is used to predict depth dose to within 2 mm for most electron beams used clinically at depths greater than d95.

AB - Central axis depth dose measurements were made by the Radiological Physics Center on over 70 electron producing machines used in radiation therapy. These data were consistent for each machine model and nominal energy. However, the data show that depth dose relations can vary significantly among different machine models for electron beams having the same nominal energy. Analysis shows that both the method used to achieve beam flatness and the mean incident electron energy determine the central axis depth dose curve past the depth of maximum dose. A linear relation of depth dose versus mean incident electron energy is used to predict depth dose to within 2 mm for most electron beams used clinically at depths greater than d95.

KW - CALIBRATION

KW - DEPTH DOSE DISTRIBUTIONS

KW - ELECTRON BEAMS

KW - ELECTRON DOSIMETRY

KW - RADIOTHERAPY

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JO - Medical physics

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Electron beam central axis depth dose measurements

Abstract

Keywords

ASJC Scopus subject areas

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