国际学生入学条件
Admission to the Ph.D. program in Radiation Sciences - Medical Physics generally requires completion of an M.Sc. degree in Medical Physics, Physics or related discipline, with at least an A- standing. Admission to the Ph.D. program in Radiation Sciences - Radiation Biology generally requires completion of an M.Sc. in Biology, Medical Sciences or related discipline, with at least an A- standing. However, students who have entered the M.Sc. program and wish to proceed to Ph.D. studies without completing the M.Sc. may apply to transfer after their M.Sc. coursework is complete. They must have an A- average in their M.Sc. graduate course work at McMaster and show clear evidence of research ability. If the transfer application is successful, then all of the graduate work completed up to that time may be applied directly to the Ph.D.
TOEFL: minimum score of 92 (internet based, minimum of 20 per band), 237 (computer based) or 580 (paper based)
IELTS (Academic): minimum overall score of 6.5, with at least 5.5 in each section
PTE Academic: minimum score of 63
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雅思考试总分
6.5
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雅思考试指南
- 雅思总分:6.5
- 托福网考总分:92
- 托福笔试总分:580
- 其他语言考试:PTE Academic: minimum score of 63
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申请截止日期: 请与IDP顾问联系以获取详细信息。
课程简介
Radiation Sciences is broadly interdisciplinary, bridging the fields of medicine, biology, engineering and physical science. It provides scientific method and knowledge to certain industrial sectors, especially the Health Care and Nuclear industries.The program consists of a research thesis-based MSc in three streams, Medical Physics, Radiation Biology and Medical Radiation Sciences. Research is conducted with faculty using McMaster radiation facilities or at area hospitals <br> <br>interface dosimetry, imaging dose distributions, neutron micro-dosimetry, Nuclear and atomic techniques used for analysis of both trace toxic elements and major components of human body composition, Development of novel radiopharmaceuticals and medical use of radioisotopes in diagnosis and therapy, Novel methods of imaging bone architecture and joint structure non-invasively, Magnetic Resonance Imaging, DNA damage and DNA repair processes in carcinogenesis, Adaptive response, genomic instability and bystander effect in radiation risk assessment of human and non-human biota, Laser and light propagation in tissue for photodynamic therapy and tissue characterization, Skeletal muscle function and the mechanisms of repair/regeneration, Radiation ccident dosimetry, Advanced methods of optimization for intensity modulated radiation therapy (IMRT) and gel dosimetry
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