Dose calculations using convolution and superposition principles: The orientation of dose spread kernels in divergent x-ray beams
The convolution/superposition method of dose calculation has the potential to become the preferred technique for radiotherapy treatment planning. When this approach is used for therapeutic x-ray beams...
The convolution/superposition method of dose calculation has the potential to become the preferred technique for radiotherapy treatment planning. When this approach is used for therapeutic x-ray beams...
Jaws 2: A description of in-air beam profiles for half blocked and dynamically wedged radiation fields
In a recent paper [Med. Phys. 19, 1441 (1992)] it was shown that the field size dependence of on-axis relative output from a linear accelerator can be well described by a model comprising two componen...
In a recent paper [Med. Phys. 19, 1441 (1992)] it was shown that the field size dependence of on-axis relative output from a linear accelerator can be well described by a model comprising two componen...
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Simulation of x-ray spectral reconstruction from transmission data by direct resolution of the numeric system AF=T
Med. Phys. Volume 20, Issue 6, pp. 1695-1703 (November 1993)
Issue Date: November 1993
Connotea
CiteULike
del.icio.us
BibSonomy
KEYWORDS and PACS
LINEAR ACCELERATORS,
X–,
RAY SPECTRA,
TRANSMISSION,
ATTENUATION,
SIMULATION,
X RADIATION,
MATRIX ALGEBRA
- 87.64.Fb
Biophysics and medical physics Spectroscopic and microscopic techniques in biophysics and medical physics X-ray spectroscopy, EXAFS - 87.53.Bn
Biophysics and medical physics Ionizing-radiation therapy physics Photon dosimetry: theory and algorithms - 87.56.By
Biophysics and medical physics Radiation therapy equipment Radiation generators - YEAR: 1993
PUBLICATION DATA
0094-2405 (print)
AAPM
X-ray spectral reconstruction from transmission data was investigated by direct resolution of the matrix system A*F=T using spectral algebra. Theoretical, numerical, and physical conditions were studied to obtain the physical solution of the problem. It is shown why the least-square-fitting methods may not give good results for high energy photon spectra above several MeV. The proposed method does not need a preshaped starting spectrum. Simulation studies have been made with arbitrary but realistic spectra of different shapes and maximum energies simulating the reality and using different materials as attenuator like carbon, aluminum, and even water. Conditions on the attenuator choice to obtain the physical solution of the system are given. The reconstruction method provides good results in the radiotherapy energy range despite measurement errors. The computation is quick and implementable on a personal computer with a mathematical coprocessor.
| History: | Received 16 October 1992; accepted 7 July 1993 |
| Permalink: | http://dx.doi.org/10.1118/1.596956 |
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