R313-12-20. Units of Exposure and Dose  

(1) As used in these rules, the unit of EXPOSURE is the coulomb per kilogram (C per kg). One roentgen is equal to 2.58 x 10^-4 coulomb per kilogram of air.

(2) As used in these rules, the units of dose are:

(a) Gray (Gy) is the SI unit of absorbed dose. One gray is equal to an absorbed dose of one joule per kilogram. One gray equals 100 rad.

(b) Rad is the special unit of absorbed dose. One rad is equal to an absorbed dose of 100 erg per gram or 0.01 joule per kilogram. One rad equals 0.01 Gy.

(c) Rem is the special unit of any of the quantities expressed as dose equivalent. The dose equivalent in rem is equal to the absorbed dose in rad multiplied by the quality factor. One rem equals 0.01 Sv.

(d) Sievert (Sv) is the SI unit of any of the quantities expressed as dose equivalent. The dose equivalent in sievert is equal to the absorbed dose in gray multiplied by the quality factor. One Sv equals 100 rem.

(3) As used in these rules, the quality factors for converting absorbed dose to dose equivalent are shown in Table 1.

TABLE 1

Quality Factors and Absorbed Dose Equivalencies

                                                    Absorbed Dose

                                                    Equal to a

                                      Quality Unit Dose

 Type of Radiation Factor (Q) Equivalent

X, gamma, or beta radiation and 1 1

 high-speed electrons

Alpha particles, multiple-charged 20 0.05

 particles, fission fragments and

 heavy particles of unknown charge

Neutrons of unknown energy 10 0.1

High energy protons 10 0.1

     For the column in Table 1 labeled "Absorbed Dose Equal to a Unit Dose Equivalent", the absorbed dose in rad is equal to one rem or the absorbed dose in gray is equal to one Sv.

(4) If it is more convenient to measure the neutron fluence rate than to determine the neutron dose equivalent rate in sievert per hour or rem per hour, as provided in Subsection R313-12-20(3), 0.01 Sv of neutron radiation of unknown energies may, for purposes of these rules, 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 licensee or registrant may use the fluence rate per unit dose equivalent or the appropriate Q value from Table 2 to convert a measured tissue dose in gray or rad to dose equivalent in sievert or rem.

TABLE 2

Mean Quality Factors, Q, and Fluence Per Unit Dose

Equivalent for Monoenergetic Neutrons

                                Fluence per Fluence per

                                Unit Dose Unit Dose

          Neutron Quality Equivalent Equivalent

          Energy Factor neutrons neutrons

            Mev Q cm^-2 rem^-1 cm^-2 Sv^-1

thermal 2.5 x 10^-8 2 980 x 10⁶ 980 x 10⁸

         1 x 10^-7 2 980 x 10⁶ 980 x 10⁸

         1 x 10^-6 2 810 x 10⁶ 810 x 10⁸

         1 x 10^-5 2 810 x 10⁶ 810 x 10⁸

         1 x 10^-4 2 840 x 10⁶ 840 x 10⁸

         1 x 10^-3 2 980 x 10⁶ 980 x 10⁸

         1 x 10^-2 2.5 1010 x 10⁶ 1010 x 10⁸

         1 x 10^-1 7.5 170 x 10⁶ 170 x 10⁸

         5 x 10^-1 11 39 x 10⁶ 39 x 10⁸

         1 11 27 x 10⁶ 27 x 10⁸

         2.5 9 29 x 10⁶ 29 x 10⁸

         5 8 23 x 10⁶ 23 x 10⁸

         7 7 24 x 10⁶ 24 x 10⁸

        10 6.5 24 x 10⁶ 24 x 10⁸

        14 7.5 17 x 10⁶ 17 x 10⁸

        20 8 16 x 10⁶ 16 x 10⁸

        40 7 14 x 10⁶ 14 x 10⁸

        60 5.5 16 x 10⁶ 16 x 10⁸

         1 x 10² 4 20 x 10⁶ 20 x 10⁸

         2 x 10² 3.5 19 x 10⁶ 19 x 10⁸

         3 x 10² 3.5 16 x 10⁶ 16 x 10⁸

         4 x 10² 3.5 14 x 10⁶ 14 x 10⁸

     For the column in Table 2 labeled "Quality Factor", the values of Q are at the point where the dose equivalent is maximum in a 30 cm diameter cylinder tissue-equivalent phantom.

     For the columns in Table 2 labeled "Fluence per Unit Dose Equivalent", the values are for monoenergetic neutrons incident normally on a 30 cm diameter cylinder tissue equivalent phantom.