N.Y. Comp. Codes R. & Regs. tit. 6 § 380-2.3
Current through Register Vol. 46, No. 25, June 18, 2024
Section 380-2.3 - Units of radiation dose(a) Definitions. As used in this Part, the units of radiation doses are: (1) 'Gray' (Gy) is the SI unit of absorbed dose. One gray is equal to an absorbed dose of one joule/kilogram (100 rads).(2) 'Rad' is the special unit of absorbed dose. One rad is equal to an absorbed dose of 100 ergs/gram or 0.01 joule/kilogram (0.01 gray).(3) 'Rem' is the special unit of any of the quantities expressed as dose equivalent. The dose equivalent in rems is equal to the absorbed dose in rads multiplied by the quality factor (1 rem = 0.01 sievert).(4) 'Sievert' is the SI unit of any of the quantities expressed as dose equivalent. The dose equivalent in sieverts is equal to the absorbed dose in grays multiplied by the quality factor (1 Sv = 100 rems).(b) As used in this Part, the quality factors for converting absorbed dose to dose equivalent are shown in Table 1 of this subdivision. TABLE 1 |
QUALITY FACTORS AND ABSORBED DOSE EQUIVALENCIES |
Type of Radiation | Quality Factor (Q) | Absorbed Dose Equal to a Unit Dose Equivalenta |
X-, gamma, or beta radiation | 1 | 1 |
Alpha particles, multiple-charged particles, fission fragments and heavy particles of unknown charge | 20 | 0.05 |
Neutrons of unknown energy | 10 | 0.1 |
High-energy protons | 10 | 0.1 |
a Absorbed dose in rad equal to 1 rem or the absorbed dose in gray equal to 1 sievert.
(c) If it is more convenient to measure the neutron fluence rate than to determine the neutron dose equivalent rate in rems per hour or sieverts per hour, as provided in Table 1 in subdivision (b) of this section, one rem (0.01 Sv) of neutron radiation of unknown energies may, for purposes of the regulations in this Part, be assumed to result from a total fluence of 25 million neutrons per square centimeter incident upon the body. If sufficient information exists to estimate the approximate energy distribution of the neutrons, the fluence rate per unit dose equivalent or the appropriate Q value from Table 2 of this subdivision may be used to convert a measured tissue dose in rads to dose equivalent in rems.TABLE 2
MEAN QUALITY FACTORS, Q, AND FLUENCE PER UNIT DOSE
EQUIVALENT FOR MONOENERGETIC NEUTRONS
Neutron Energy (MeV) | Quality Factora (Q) | Fluence per Unit Dose Equivalentb (neutrons cm-2 rem-1) |
(thermal) 2.5 x 10-8 | 2 | 980 x 106 |
1 x 10-7 | 2 | 980 x 106 |
1 x 10-6 | 2 | 810 x 106 |
1 x 10-5 | 2 | 810 x 106 |
1 x 10-4 | 2 | 840 x 106 |
1 x 10-3 | 2 | 980 x 106 |
1 x 10-2 | 2.5 | 1010 x 106 |
1 x 10-1 | 7.5 | 170 x 106 |
1 x 10-1 | 11 | 39 x 106 |
1 | 11 | 27 x 106 |
2.5 | 9 | 29 x 106 |
5 | 8 | 23 x 106 |
7 | 7 | 24 x 106 |
10 | 6.5 | 24 x 106 |
14 | 7.5 | 17 x 106 |
20 | 8 | 16 x 106 |
40 | 7 | 14 x 106 |
60 | 5.5 | 16 x 106 |
1 x 102 | 4 | 20 x 106 |
2 x 102 | 3.5 | 19 x 106 |
3 x 102 | 3.5 | 16 x 106 |
4 x 102 | 3.5 | 14 x 106 |
a Value of quality factor (Q) at the point where the dose equivalent is maximum in a 30-cm diameter cylinder tissue-equivalent phantom.
b Monoenergetic neutrons incident normally on a 30-cm diameter cylinder tissue-equivalent phantom.
N.Y. Comp. Codes R. & Regs. Tit. 6 § 380-2.3
Amended New York State Register April 25, 2018/Volume XL, Issue 17, eff. 5/10/2018