Interface dose perturbation as a measure of megavoltage photon beam energy

I. J. Das; F. M. Khan; B. J. Gerbi

doi:10.1118/1.596161

Interface dose perturbation as a measure of megavoltage photon beam energy

I. J. Das, F. M. Khan, B. J. Gerbi

Radiation Oncology

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Abstract

The description of the quality of a photon beam has usually been characterized by a single value such as the half value layer, the effective attenuation coefficient, the percent depth dose, and most recently by the ionization ratio (IR). Although the IR is simple and easy to measure, it lacks sensitivity at photon energies above 10 MV. This paper describes a method based on dose perturbation at an interface and defines the forward dose perturbation factor (FDPF) as a measure of beam quality. Comparisons between the two methods are given for photon energies ranging from ⁶⁰Co to 24 MV. The results show that the FDPF method is more sensitive to spectral changes at photon energies above 10 MV than the IR.

Original language	English (US)
Pages (from-to)	78-81
Number of pages	4
Journal	Medical Physics
Volume	15
Issue number	1
DOIs	https://doi.org/10.1118/1.596161
State	Published - Jan 1988

Keywords

BEAM MONITORING
BEAM PROFILES
CALIBRATION
GAMMA DOSIMETRY
GAMMA RADIATION
PHOTON BEAMS
RADIOTHERAPY

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abstract = "The description of the quality of a photon beam has usually been characterized by a single value such as the half value layer, the effective attenuation coefficient, the percent depth dose, and most recently by the ionization ratio (IR). Although the IR is simple and easy to measure, it lacks sensitivity at photon energies above 10 MV. This paper describes a method based on dose perturbation at an interface and defines the forward dose perturbation factor (FDPF) as a measure of beam quality. Comparisons between the two methods are given for photon energies ranging from 60Co to 24 MV. The results show that the FDPF method is more sensitive to spectral changes at photon energies above 10 MV than the IR.",

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AU - Khan, F. M.

AU - Gerbi, B. J.

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N2 - The description of the quality of a photon beam has usually been characterized by a single value such as the half value layer, the effective attenuation coefficient, the percent depth dose, and most recently by the ionization ratio (IR). Although the IR is simple and easy to measure, it lacks sensitivity at photon energies above 10 MV. This paper describes a method based on dose perturbation at an interface and defines the forward dose perturbation factor (FDPF) as a measure of beam quality. Comparisons between the two methods are given for photon energies ranging from 60Co to 24 MV. The results show that the FDPF method is more sensitive to spectral changes at photon energies above 10 MV than the IR.

AB - The description of the quality of a photon beam has usually been characterized by a single value such as the half value layer, the effective attenuation coefficient, the percent depth dose, and most recently by the ionization ratio (IR). Although the IR is simple and easy to measure, it lacks sensitivity at photon energies above 10 MV. This paper describes a method based on dose perturbation at an interface and defines the forward dose perturbation factor (FDPF) as a measure of beam quality. Comparisons between the two methods are given for photon energies ranging from 60Co to 24 MV. The results show that the FDPF method is more sensitive to spectral changes at photon energies above 10 MV than the IR.

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KW - GAMMA RADIATION

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KW - RADIOTHERAPY

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Interface dose perturbation as a measure of megavoltage photon beam energy

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Keywords

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