| Course Level: | Master's | |
|---|---|---|
| Course Duration: | 2 Years | |
| Course Language | English | |
| Required Degree | 3 Year Bachelor’s Degree | |
Choosing an MS in Radiation Oncology at Korea University offers a unique blend of cutting-edge technology, advanced research, and clinical excellence. Korea University’s state-of-the-art facilities provide hands-on experience with modern radiotherapy techniques, including IMRT, stereotactic therapy, and proton therapy. The program emphasizes interdisciplinary collaboration, integrating oncology, medical physics, and biology, fostering a comprehensive understanding of cancer treatment. South Korea’s robust healthcare system and innovative research environment create opportunities for impactful contributions to global cancer care. Additionally, studying at a prestigious institution like Korea University ensures mentorship from leading experts, enhancing both academic growth and professional prospects in radiation oncology.
Category |
Details |
|---|---|
|
Program Name |
Master of Science (MS) in Radiation Oncology |
|
Degree Awarded |
Master of Science (MS) |
|
Course Duration |
2–3 years (full-time) |
|
Language of Instruction |
English/Korean (depends on courses) |
|
Yearly Tuition Fees |
~6,000,000 – 8,000,000 (~USD 4,500–6,000) |
|
Total Tuition Fees |
~12,000,000 – 24,000,000 (~USD 9,000–18,000) |
|
Total Program Cost |
Including living expenses: ~25,000,000 – 35,000,000 (~USD 18,500–26,000) |
|
Eligibility |
Bachelor’s degree in Medicine, Biology, or related field; strong academic record |
|
Admission Requirements |
Transcript, CV, Statement of Purpose, Letters of Recommendation, English proficiency (TOEFL/IELTS) or Korean if applicable |
|
Application Intake |
Fall Semester (September), Spring Semester (March – limited) |
|
Scholarship |
University scholarships, government scholarships (e.g., KGSP), merit-based awards |
|
Career Prospects |
Radiation oncologist, clinical researcher, medical physicist, academic faculty, hospital specialist |
|
Curriculum Structure |
Core courses in radiation physics, oncology, radiobiology, clinical practice; electives in advanced radiotherapy techniques; thesis or research project required |
