F. BİLTEKİN Et Al. , "3D printer-based novel intensity-modulated vaginal brachytherapy applicator: feasibility study," JOURNAL OF CONTEMPORARY BRACHYTHERAPY , vol.12, no.1, pp.17-26, 2020
BİLTEKİN, F. Et Al. 2020. 3D printer-based novel intensity-modulated vaginal brachytherapy applicator: feasibility study. JOURNAL OF CONTEMPORARY BRACHYTHERAPY , vol.12, no.1 , 17-26.
BİLTEKİN, F., Akyol, H., GÜLTEKİN, M., & YILDIZ, F., (2020). 3D printer-based novel intensity-modulated vaginal brachytherapy applicator: feasibility study. JOURNAL OF CONTEMPORARY BRACHYTHERAPY , vol.12, no.1, 17-26.
BİLTEKİN, FATİH Et Al. "3D printer-based novel intensity-modulated vaginal brachytherapy applicator: feasibility study," JOURNAL OF CONTEMPORARY BRACHYTHERAPY , vol.12, no.1, 17-26, 2020
BİLTEKİN, FATİH Et Al. "3D printer-based novel intensity-modulated vaginal brachytherapy applicator: feasibility study." JOURNAL OF CONTEMPORARY BRACHYTHERAPY , vol.12, no.1, pp.17-26, 2020
BİLTEKİN, F. Et Al. (2020) . "3D printer-based novel intensity-modulated vaginal brachytherapy applicator: feasibility study." JOURNAL OF CONTEMPORARY BRACHYTHERAPY , vol.12, no.1, pp.17-26.
@article{article, author={FATİH BİLTEKİN Et Al. }, title={3D printer-based novel intensity-modulated vaginal brachytherapy applicator: feasibility study}, journal={JOURNAL OF CONTEMPORARY BRACHYTHERAPY}, year=2020, pages={17-26} }