References
- Hwang SL, Jung HR, Lim CH. A study on radiation dose for general radiography examination at first medical institution. Journal of The Korean Society of Radiology. 2011;5(5):245-7. https://doi.org/10.7742/jksr.2011.5.5.245
- Shin SG, Lee HY. The anode heel effect caused by changing the angle of X-ray tube. Journal of The Korean Society of Radiology. 2016;10(6):435-42. https://doi.org/10.7742/jksr.2016.10.6.435
- Radiation Instruments Research Society. Radiation equipment. 4th edition. Seoul: Cheong-Ku Munhwasa; 2019.
- Kim HJ, Kim KB, Kim CS, Park YJ, An BJ, et al. Medical imaging informatics. Seoul: Cheong-Ku Munhwasa; 2020.
- Kang SS, Kang YH, Kang EB, Ko SJ, Ko IH, Ku HK, et al. Textbook of radiographic positioning and clinical diagnosis. 4th edition(volume1). Seoul: Cheong-Ku Munhwasa; 2013.
- Wang JH, Han SY, Kim HS, Park SM, Lee SY, Back SM, et al. Standard imaging technique in radiology examination (general imaging). Korea Centers for Disease Control and Prevention; 2014.
- Park JH, Yang SG, Kim KJ, Joo YC, Hong DH, Lim WT. Comparison of the surface dose of the thyroid according to AP versus PA positioning in cervical spine oblique view. Journal of Radiological Science and Technology. 2017;40(4):543-4. https://doi.org/10.17946/JRST.2017.40.4.02
- Kang SS, Ko IH, Kim KK, Kim KO, Kim DH, et al. Radiation biology. 4th edition. Seoul: Cheong-Ku Munhwasa; 2019.
- Park YS, Ko SJ, Kim HT, Lee SS, Lee KS, et al. Radioblology. 2nd edition. Jeong-Mun Kag; 2019.
- Jang KJ, Kim NH, Lee JH, Lee SB. Distribution of X-ray strength in exposure field caused by heel effect. Journal of The Korean Society of Radiology. 2011;5(5):224-5.
- Ko SK, Kim JM, An KC, Yoon CH, Lee SK, Radiation equipment. 1st edition. Dae-Hak Seolim; 1998.
- Kim SH. Evaluation of dose and image quality according to heel effect of diagnostic radiation generator [master's thesis]. SeoSan: Department of Radiological Science, The Graduate School of Health Promotion Hanseo University; 2020.
- Shin JW, Oh YJ, Son HB, Woo SW, Park GY, Lee SY. Study on research for reducing radiation dose of head and neck for cephalometric radiography system. Journal of The Korean Society of Radiology. 2015;9(2):133-6.
- Kang MH, Cho JM, Jung BJ, Noh SC, Kang SS, et al. A study for dose difference of anode and cathode by the size of radiation field in normal chest X-ray examination. Journal of The Korean Society of Radiology. 2014;8(1):113-5.
- Kim GH, Lee RN. Effect of target angle and thickness on the heel effect and X-ray intensity characteristics for 70 kV X-ray tube target. Progress in Medical Physics. 2016;27(4):272-4. https://doi.org/10.14316/pmp.2016.27.4.272
- Choi WC, Kim YM, Kim JS. Comparative evaluation of kerma area product and new fundamental of kerma area product on radiography. Journal of Radiological Science and Technology. 2021;44(1):53-7. https://doi.org/10.17946/JRST.2021.44.1.53