259 research outputs found
His+ reversions Caused in Salmonella typhimurium by different types of ionizing radiation
The yield of his+ reversions in the Ames Salmonella tester strain TA2638 has been determined for 60Co γ rays, 140 kV X rays, 5.4 keV characteristic X rays, 2.2 MeV protons, 3.1 MeV α particles, and 18 MeV/U Fe ions. Inactivation studies were performed with the same radiations. For both mutation and inactivation, the maximum effectiveness per unit absorbed dose was obtained for the characteristic X rays, which have a dose averaged linear energy transfer (LET) of roughly 10 keV/μm. The ratio of the effectiveness of this radiation to γ rays was 2 for inactivation and about 1.4 for the his+ reversion. For both end points the effectiveness decreases substantially at high LET, i.e., for the α particles and the Fe ions. The composition of the bottom and the top agar was the one recommended by Maron and Ames [Mutat. Res. 113, 173-215 (1983)] for application in chemical mutagenicity tests. The experiments with the less penetrating radiations differed from the usual protocol by utilization of a technique of plating the bacteria on the surface of the top agar. As in an earlier study [Roos et al., Radiat. Res. 104, 102-108 (1985)] greatly enhanced yields of mutations, relative to the spontaneous reversion rate, were obtained in these experiments by performing the irradiations 6 h after plating, which differs from the conventional procedure to irradiate the bacteria shortly after plating
Comparison of matching layers for automotive radome design
Hidden integration of 79 GHz sensors behind plastic and painted fascia
represents a challenging task since both electromagnetic and car body design
constraints have to be met. This paper compares different possibilities for
low-cost integration of radar sensors. Based on a model for stratified media,
a study of the most important parameters such as bandwidth, angle and
tolerances is shown. Our results suggest that for plastic fascia, the
requirements of future radar sensors can be met with low-cost matching. Even
with metallic paints, the requirements imposed by modern 79 GHz radar sensors
can be met under certain conditions
Response of the Ames Test to different Types of ionizing Radiation
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Water equivalent thickness values of materials used in beams of protons, helium, carbon and iron ions
Heavy charged particle beam radiotherapy for cancer is of increasing interest because it delivers a highly conformal radiation dose to the target volume. Accurate knowledge of the range of a heavy charged particle beam after it penetrates a patient\u27s body or other materials in the beam line is very important and is usually stated in terms of the water equivalent thickness (WET). However, methods of calculating WET for heavy charged particle beams are lacking. Our objective was to test several simple analytical formulas previously developed for proton beams for their ability to calculate WET values for materials exposed to beams of protons, helium, carbon and iron ions. Experimentally measured heavy charged particle beam ranges and WET values from an iterative numerical method were compared with the WET values calculated by the analytical formulas. In most cases, the deviations were within 1 mm. We conclude that the analytical formulas originally developed for proton beams can also be used to calculate WET values for helium, carbon and iron ion beams with good accuracy. © 2010 Institute of Physics and Engineering in Medicine
Large-momentum-transfer atom interferometers with rad-accuracy using Bragg diffraction
Large-momentum-transfer~(LMT) atom interferometers using elastic Bragg
scattering on light waves are among the most precise quantum sensors to date.
To advance their accuracy from the mrad to the rad regime, it is necessary
to understand the rich phenomenology of the Bragg interferometer, which differs
significantly from that of a standard two-mode interferometer. We develop an
analytic model for the interferometer signal and demonstrate its accuracy using
comprehensive numerical simulations. Our analytic treatment allows the
determination of the atomic projection noise limit of an LMT Bragg
interferometer, and provides the means to saturate this limit. It affords
accurate knowledge of the systematic phase errors as well as their suppression
by two orders of magnitude down to a few using appropriate
light pulse parameters.Comment: 7 pages, 5 figures,comments welcome!; Assembled supplemental material
together with mansucrip
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