| Radiation exposure | |
|---|---|
| X | |
| SI unit | C/kg |
Other units | röntgen |
| In SI base units | A⋅s/kg |
Radiation exposure is a measure of the ionization of air due to ionizing radiation from photons; that is, gamma rays and X-rays.[1] It is defined as the electric charge freed by such radiation in a specified volume of air divided by the mass of that air.
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Superimposition of two structures from different locations due to double exposure of same film/plate grid cut-off radiopaque objects on/external to the patient (e.g. Necklaces, piercings), clothing (e.g. Buttons), hair (e.g. Ponytail, hair braids etc.).
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The SI unit of exposure is the coulomb per kilogram (C/kg), which has largely replaced the roentgen (R).[2] One roentgen equals 0.000258 C/kg; an exposure of one coulomb per kilogram is equivalent to 3876 roentgens.
As a measure of radiation damageexposure has been superseded by the concept of absorbed dose which takes into account the absorption characteristic of the target material.
Superimposition of two structures from different locations due to double exposure of same film/plate grid cut-off radiopaque objects on/external to the patient (e.g. Necklaces, piercings), clothing (e.g. Buttons), hair (e.g. Ponytail, hair braids etc.).
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The SI unit of exposure is the coulomb per kilogram (C/kg), which has largely replaced the roentgen (R).[2] One roentgen equals 0.000258 C/kg; an exposure of one coulomb per kilogram is equivalent to 3876 roentgens.
As a measure of radiation damageexposure has been superseded by the concept of absorbed dose which takes into account the absorption characteristic of the target material.
Exposure conversion to absorbed dose[edit]
Dose is the measure of energy per unit mass deposited by ionizing radiation. For a given radiation field, the absorbed dose will depend on the type of matter which absorbs the radiation. For instance, for an exposure of 1 roentgen by gamma rays with an energy of 1 MeV, the dose in air will be 0.877 rad, the dose in water will be 0.975 rad, the dose in silicon will be 0.877 rad, and the dose in averaged human tissue will be 1 rad. A table giving the exposure to dose conversion for these four materials for a variety of gamma ray energies can be found in the reference.[3]
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Exposure rate constant[edit]
The gamma ray field can be characterized by the exposure rate (in units of, for instance, roentgen per hour). For a point source, the exposure rate will be linearly proportional to the source's radioactivity and inversely proportional to the square of the distance,[4]
- F = Γ×α / r2
where F is the exposure rate, r is the distance, α is the source activity, and Γ is the exposure rate constant, which is dependent on the particular radionuclide used as the gamma ray source.
Below is a table of exposure rate constants for various radionuclides. They give the exposure rate in roentgens per hour for a given activity in millicuries at a distance in centimeters.[5]
| Radionuclide | Exposure rate constant |
|---|---|
| cobalt-60 | 12.838 |
| molybdenum-99 | 1.03 |
| technetium-99m (6 hour) | 0.720 |
| palladium-103 (unfiltered) | 1.48[6] |
| silver-110m (250 day) | 14.9 |
| caesium-137 | 3.400 |
| iodine-125 (unfiltered) | 1.46[6] |
| iridium-192 (unfiltered) | 4.69[6] |
| radium-226 | 8.25 |
Radiation measurement quantities[edit]
The following table shows radiation quantities in SI and non-SI units:
| Quantity | Unit | Symbol | Derivation | Year | SI equivalence |
|---|---|---|---|---|---|
| Activity (A) | becquerel | Bq | s−1 | 1974 | SI unit |
| curie | Ci | 3.7 × 1010 s−1 | 1953 | 3.7×1010 Bq | |
| rutherford | Rd | 106 s−1 | 1946 | 1,000,000 Bq | |
| Exposure (X) | coulomb per kilogram | C/kg | C⋅kg−1 of air | 1974 | SI unit |
| röntgen | R | esu / 0.001293 g of air | 1928 | 2.58 × 10−4 C/kg | |
| Absorbed dose (D) | gray | Gy | J⋅kg−1 | 1974 | SI unit |
| erg per gram | erg/g | erg⋅g−1 | 1950 | 1.0 × 10−4 Gy | |
| rad | rad | 100 erg⋅g−1 | 1953 | 0.010 Gy | |
| Equivalent dose (H) | sievert | Sv | J⋅kg−1 × WR | 1977 | SI unit |
| röntgen equivalent man | rem | 100 erg⋅g−1 x WR | 1971 | 0.010 Sv | |
| Effective dose (E) | sievert | Sv | J⋅kg−1 × WR × WT | 1977 | SI unit |
| röntgen equivalent man | rem | 100 erg⋅g−1 × WR × WT | 1971 | 0.010 Sv |
Although the United States Nuclear Regulatory Commission permits the use of the units curie, rad, and rem alongside SI units,[7] the European UnionEuropean units of measurement directives required that their use for 'public health .. purposes' be phased out by 31 December 1985.[8]
References[edit]
- N. J. Carron, An Introduction to the Passage of Energetic Particles through Matter, 2007, Taylor and Francis Group
- Glenn F. Knoll, Radiation Detection and Measurement, fourth edition, 2010, John Wiley and Sons, Inc.
- Andrew Holmes-Siedle and Len Adams, Handbook of Radiation Effects, second edition, 2002, Oxford University Press
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Notes[edit]
- ^Knoll, p. 56
- ^Holmes-Siedle and Adams, p. 4
- ^Carron, p. 141
- ^Knoll, p. 57
- ^Stanford University Environmental Health and Safety, radionuclide safety data sheets
- ^ abcKhan, Faiz (2015). The Physics of Radiation Therapy. Philadelphia, PA: Lippincott Williams & Wilkins. p. 358.
- ^10 CFR 20.1004. US Nuclear Regulatory Commission. 2009.
- ^The Council of the European Communities (1979-12-21). 'Council Directive 80/181/EEC of 20 December 1979 on the approximation of the laws of the Member States relating to Unit of measurement and on the repeal of Directive 71/354/EEC'. Retrieved 19 May 2012.
