Radiation tomography apparatus, dose calculation method, and program

What is claimed is: 1. A radiation tomography apparatus comprising: a calculator to calculate a dose near a surface of a subject based on a first radiation dose that results from dividing i) a radiation dose measured at a measurement position near a surface of a phantom when a scan of the phantom is performed by ii) a profile area resulting from normalizing a dose profile in a radiation beam width direction that corresponds to a body axis direction of the subject, the dose profile normalized according to a peak dose value of the dose profile, wherein the dose profile is measured at the measurement position when the phantom is irradiated with the same radiation beam width used for the scan; and a display controller to control a monitor to display the dose calculated by said calculator. 2. The radiation tomography apparatus according to claim 1 , wherein the measurement position is a position where the radiation dose is substantially a maximum. 3. The radiation tomography apparatus according to claim 2 , wherein the phantom is placed on a scanning table plate, and wherein the measurement position is a position most proximate to a radiation source. 4. The radiation tomography apparatus according to claim 1 , wherein the dose profile results from averaging a plurality of dose profiles measured by positioning a radiation source for irradiation at a plurality of different view angles. 5. The radiation tomography apparatus according to claim 1 , wherein said calculator is configured to calculate the dose based on a second radiation dose resulting from dividing the first radiation dose by a helical pitch of a helical scan when the helical scan is specified as a scan condition for the subject. 6. The radiation tomography apparatus according to claim 1 , wherein said calculator is configured to calculate the dose based on a second radiation dose resulting from dividing the first radiation dose by a helical pitch equivalent according to a time-weighted average in a variable-pitch helical scan when the variable-pitch helical scan is specified as a scan condition for the subject. 7. The radiation tomography apparatus according to claim 1 , wherein said calculator is configured to calculate the dose based on a view angle range for performing a partial scan that irradiates for less than 360 degrees, when the partial scan is specified as a scan condition for the subject. 8. The radiation tomography apparatus according to claim 1 , wherein said calculator is configured to calculate the dose based on the first radiation dose obtained by performing a partial scan as the scan of the phantom, when the partial scan that irradiates for less than 360 degrees is specified as a scan condition for the subject. 9. The radiation tomography apparatus according to claim 1 , wherein said calculator is configured to calculate the dose based on a second radiation dose resulting from averaging a plurality of the first radiation doses obtained by performing a partial scan for each of a plurality of view angle ranges different from each other as the scan of the phantom, when the partial scan that irradiates for less than 360 degrees is specified as a scan condition for the subject. 10. The radiation tomography apparatus according to claim 1 , wherein a full scan that delivers radiation for 360 degrees is performed on the phantom. 11. The radiation tomography apparatus according to claim 1 , wherein the phantom is acrylic and is shaped to be a column that is one of 16 centimeters and 32 centimeters in diameter, and wherein the measurement position has a depth in a range from 0.5 centimeters to 2.0 centimeters from the surface. 12. A dose calculation method comprising: measuring a radiation dose at a measurement position near a surface of a phantom when a scan of the phantom is performed; determining a profile area of a dose profile in a radiation beam width direction that corresponds to a body axis direction of a subject, the dose profile normalized according to a peak dose value of the dose profile at the measurement position, wherein the phantom is irradiated with the same radiation beam width as the scan; and calculating a dose for the subject imaged by a radiation tomography apparatus based on a first radiation dose resulting from dividing the radiation dose by the profile area. 13. A program configured to: instruct a computer to function as a calculator configured to calculate a dose near a surface of a subject based on a first radiation dose that results from dividing i) a radiation dose measured at a measurement position near a surface of a phantom when a scan of the phantom is performed by ii) a profile area resulting from normalizing a dose profile in a radiation beam width direction that corresponds to a body axis direction of the subject, the dose profile normalized according to a peak dose value of the dose profile, wherein the dose profile is measured at the measurement position when the phantom is irradiated with the same radiation beam width used for the scan; and instruct a display controller to control a monitor to display the calculated dose.