Publicly available database of measurements with the silicon spectrometer Liulin onboard aircraft
Journal article, 2013

Aircrew members are exposed to ionizing radiation due to their work onboard aircraft. ICRP recommended the monitoring of their effective doses because they regularly exceed the limit of 1 mSv per year for the public exposure. The effective doses are routinely calculated by computer codes that take into account flight parameters like altitude, geographic position, and solar activity. This approach was preferred against personal dosimeters method because the effective dose cannot be evaluated experimentally. However, it is generally accepted, that these calculations should be periodically verified by measurements of H*(10) which is frequently used as a surrogate for effective dose. This report refers about the database (available online http://hroch.ujf.cas.cz/ similar to aircraft/) of long-term measurements with the silicon spectrometer Liulin onboard aircraft. The measurements have been performed since March 2001; so up to date, the database covers a period of 11-years (with a few interruptions) which is usually the duration of the whole solar cycle. The database comprises more than 10(5) individual records of energy deposition spectra, absorbed dose rates, and ambient dose equivalent rates. Each record contains also the information on all flight parameters needed for calculation of dosimetric quantities by the computer codes, and thus the database represent an useful tool for verification of the routine dosimetry of aircraft crews. (C) 2013 Elsevier Ltd. All rights reserved.

Cosmic radiation

Aircrew dosimetry

Silicon detector

Liulin

Author

Ondrej Ploc

Chalmers, Applied Physics, Nuclear Engineering

I. Ambrozova

Nuclear Physics Institute

J. Kubancak

Nuclear Physics Institute

Czech Technical University in Prague

I. Kovar

Nuclear Physics Institute

T. P. Dachev

Bulgarian Academy of Sciences

Radiation Measurements

1350-4487 (ISSN)

Vol. 58 107-112

Subject Categories

Physical Sciences

DOI

10.1016/j.radmeas.2013.09.002

More information

Latest update

12/9/2020