Drawing method, erasing method, and drawing apparatus

What is claimed is: 1. A drawing method used when performing drawing on a thermal recording medium that includes a light-transmitting member above a recording layer, the drawing method comprising: obtaining information regarding the light-transmitting member, wherein the information regarding the light-transmitting member comprises a surface shape of the light-transmitting member, and wherein the surface shape is not flat; predicting an optical axis deviation of a laser beam in the recording layer from the information regarding the light-transmitting member; and calculating a correction amount from a result of the predicting of the optical axis deviation. 2. The drawing method according to claim 1 , wherein after calculating the correction amount, the thermal recording medium is irradiated with the laser beam. 3. The drawing method according to claim 1 , wherein an entrance angle, an entrance position, or both of the laser beam with respect to the light- transmitting member is adjusted using an optical member, to correct the optical axis deviation of the laser beam. 4. The drawing method according to claim 1 , wherein a pedestal section to which the thermal recording medium is fixed is moved to adjust an entrance angle, an entrance position, or both of the laser beam with respect to the light- transmitting member, to correct the optical axis deviation of the laser beam. 5. The drawing method according to claim 1 , wherein the correction amount is calculated on a basis of a result of predicting the optical axis deviation of the laser beam, and input image information is corrected on a basis of the correction amount. 6. The drawing method according to claim 1 , wherein the information regarding the light-transmitting member further comprises a refractive index of the light-transmitting member. 7. The drawing method according to claim 1 , wherein the recording layer includes a coloring compound having an electron-donating property, a developer having an electron-accepting property, a photothermal converting agent, and a polymeric material, and drawing is performed on the recording layer through irradiation with the laser beam. 8. The drawing method according to claim 1 , wherein the recording layer comprises three layers each having color development tones different from each other. 9. An erasing method used when erasing an image from a thermal recording medium that includes a light-transmitting member above a recording layer, the erasing method comprising: obtaining information regarding the light-transmitting member, wherein the information regarding the light-transmitting member comprises a surface shape of the light-transmitting member, and wherein the surface shape is not flat; predicting an optical axis deviation of a laser beam in the recording layer from the information regarding the light-transmitting member; and calculating a correction amount from a result of the predicting of the optical axis deviation. 10. The erasing method according to claim 9 , wherein the recording layer includes a coloring compound having an electron-donating property, a developing/reducing agent having an electron-accepting property, a photothermal converting agent, and a polymeric material, and the image drawn on the recording layer is erased through irradiation with the laser beam. 11. The erasing method according to claim 9 , wherein the recording layer comprises three layers each having color development tones different from each other. 12. A drawing apparatus, comprising: a light source section that emits a laser beam; a scanner section that performs scanning on a thermal recording medium with the laser beam emitted from the light source section, the thermal recording medium including a light-transmitting member above a recording layer, wherein the recording layer comprises three layers each having color development tones different from each other; a reception section that obtains information regarding the light-transmitting member; and a correction section that predicts, from the information regarding the light-transmitting member, an optical axis deviation of the laser beam in the recording layer and calculates a correction amount from a result of the prediction, the information being obtained by the reception section, and the laser beam being transmitted through the light-transmitting member. 13. The drawing apparatus according to claim 12 , further comprising a control section, wherein the correction section feeds back a result of the calculation of the correction amount to the control section. 14. The drawing apparatus according to claim 13 , wherein the control section determines the correction amount on a basis of the result of the calculation of the correction amount fed back from the correction section. 15. The drawing apparatus according to claim 14 , wherein the control section corrects an input image signal on a basis of the calculated correction amount. 16. The drawing apparatus according to claim 12 , wherein the scanner section includes a first optical member and a second optical member, the first optical member performing scanning on the thermal recording medium with the laser beam emitted from the light source section, the thermal recording medium including the light-transmitting member above the recording layer, and the second optical member adjusting an entrance angle, an entrance position, or both of the laser beam entering the light-transmitting member. 17. The drawing apparatus according to claim 16 , further comprising a first adjustment mechanism that adjusts the second optical member on a basis of the correction amount calculated by the correction section. 18. The drawing apparatus according to claim 12 , further comprising a pedestal section that fixes the thermal recording medium. 19. The drawing apparatus according to claim 18 , further comprising a second adjustment mechanism that adjusts a position and an angle of the pedestal section on a basis of the correction amount calculated by the correction section. 20. The drawing apparatus according to claim 12 , wherein the recording layer includes a coloring compound having an electron-donating property, a developer or developing/reducing agent that has an electron-accepting property, a photothermal converting agent, and a polymeric material.