L Büermann scite author profile

For the first time absolute photon mass energy-absorption coefficients of air in the energy range 3 keV to 10 keV have been measured with relative standard uncertainties less than 1%, significantly smaller than those of up to 5% assumed hitherto for calculated data. Monochromatized synchrotron radiation was used to measure both the total radiant energy by means of silicon photodiodes calibrated against a cryogenic radiometer and the fraction of radiant energy that is deposited in dry air by means of a free air ionization chamber. The measured ionization charge was converted into energy absorbed in air by calculated effective W values of photons as a function of their energy based on new measurements of the W values in dry air for electron kinetic energies between 1 keV and 7 keV, also presented in this work. The measured absorption coefficients were compared with state-of-the art calculations and found to agree within 0.7% with data calculated earlier by Hubbell at energies above 4 keV but were found to differ by values up to 2.1% at 10 keV from more recent calculations of Seltzer.

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Calorimetric determination of the absorbed dose to water for medium-energy x-rays with generating voltages from 70 to 280 kV

Krauss

Büermann²,

Hm³

et al. 2012

Phys. Med. Biol.

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For medium energy x-rays produced with tube voltages from 70 to 280 kV, the absorbed dose to water, D(w), has been determined by means of water calorimetry with relative standard uncertainties ranging from 0.45% to 0.98% at 280 and 70 kV. The results were confirmed by Monte Carlo calculations, in which the ratios of D(w) at 5 cm depth in a reference water phantom to the air kerma free in air, K(a), at the same point in space were compared to the corresponding ratios determined experimentally. The general agreement between measurement and calculation was better than 1%. These results confirm earlier investigations in which the absorbed dose to graphite was determined by means of a graphite extrapolation chamber. For the Monte Carlo calculations, an attempt was made to present a complete uncertainty budget, taking into account type B contributions also.

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Free-air ionization chambers

Burns

Büermann

2009

Metrologia

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This paper reviews the current status of free-air ionization chamber standards for the determination of air kerma in low- and medium-energy x-rays. It describes the underlying definitions and concepts that permit the air kerma to be determined from a measurement of the charge produced in a free-air chamber. The most commonly used design, the parallel-plate free-air chamber, is discussed in detail, in particular with a view to optimization of the design parameters to minimize the overall uncertainty of the air-kerma determination. Various correction factors and their uncertainties are discussed, with an emphasis on the use of the Monte Carlo technique in the evaluation and optimization of certain corrections. Alternative free-air chamber designs are outlined. The results of international comparisons of free-air chamber standards are presented.

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Fully Localized3d-Shell Behavior of Fe Ions in Alkali-Metal Hosts

et al. 1986

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Non-invasive experimental determination of a CT source model

Alikhani

Büermann

2016

Physica Medica

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L Büermann

Measurement of the x-ray mass energy-absorption coefficient of air using 3 keV to 10 keV synchrotron radiation

Calorimetric determination of the absorbed dose to water for medium-energy x-rays with generating voltages from 70 to 280 kV

Free-air ionization chambers

Fully Localized3d-Shell Behavior of Fe Ions in Alkali-Metal Hosts

Non-invasive experimental determination of a CT source model

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