Graduate Programs
Program Overview
Graduate degrees available in Nuclear Science and Engineering include:
- Master of Engineering
- Master of Science
- Doctor of Philosophy
Students in all three Nuclear Engineering graduate degree programs are exposed to a broad systems overview of the complete nuclear fuel cycle as well as having detailed expertise in a particular component of the cycle. All three degree options share a common core curriculum in the fundamentals that underlay the research areas of the faculty.
The Master of Engineering is a non-thesis graduate degree intended to supplement the student’s undergraduate degree by providing the core knowledge needed to prepare the student to pursue a career in the nuclear engineering field. The Master of Science and Doctor of Philosophy degrees are thesis-based degrees that emphasize research.
In addition, students majoring in allied fields may complete a minor degree program, consisting of 12 credit hours of coursework, through the Nuclear Science and Engineering Program. Minor programs are designed to allow students in allied fields to acquire and then indicate, in a formal way, specialization in a nuclear-related area of expertise.
Additional Program Information
ADMISSIONS
Minimum admissions and prerequisite requirements for graduate Nuclear Science and Engineering programs are as follows:
Entering graduate students may come from a variety of educational backgrounds, but must have certain fundamental knowledge and skills to successfully complete a degree in Nuclear Science and Engineering. A baccalaureate degree in engineering, physics, chemistry, or closely related field is required. The necessary prerequisites for core courses include:
- mathematics coursework up to and including differential equations
- coursework in thermodynamics
- ENGY 475/MEGN 475, Introduction to Nuclear Engineering (or equivalent)
Applicants lacking these prerequisites may be accepted conditionally and will be required to complete necessary background courses prior to full admission into the program.
Details of application requirements for the different graduate degrees can be found under Admissions Requirements at https://gradprograms.mines.edu/nuclear-engineering/
All applications must contain official transcripts of all previous college work, financial affidavit (international students), a statement of intent, and any supporting materials the applicant wishes to provide. Graduate Record Examination (GRE) results are not required. International students whose native language is not English must submit scores meeting institutionally required minimum values from an English proficiency examination (TOEFL or IELTS).
Minor Degrees
Students choosing to participate in a minor degree program must meet the admissions requirements of their home degree program and the prerequisite requirements for any course completed as part of the minor.
Admissions Considerations
Students are invited to apply to any of the Nuclear Science and Engineering degree programs. However, students are encouraged to consider the following guidelines when applying:
- Admission to the Nuclear Science and Engineering M.S. and Ph.D. programs is usually contingent upon the identification of a source of student financial support and finding an interested faculty research advisor during the review process.
- If a source of support and/or a faculty research advisor cannot be identified during the review of an application, qualified students may instead be offered admission into the Nuclear Science and Engineering M.E. degree program.
- After a student has enrolled in the Nuclear Science and Engineering M.E. program, he or she may switch to the M.S. program with the support of a faculty research advisor. This provides students the opportunity to begin graduate work in the Nuclear Science and Engineering program while looking for a faculty research advisor and financial support.
- Graduate students in the Nuclear Science and Engineering M.E. program are not typically offered financial support.
DEGREE REQUIREMENTS
· Master of Engineering: 30 total credit hours consisting of 13 hours of required core coursework, 12 credit hours of elective core coursework, 2 credit hours of seminar, and 3 credit hours of elective courses.
· Master of Science: 36 total credit hours consisting of 13 hours of core coursework, 6 credit hours of elective core courses, 2 credit hours of seminar, and at least 12 credit hours of research.
· Doctor of Philosophy: 72 total credit hours including 13 hours of required core coursework, 12 credit hours of elective core coursework, 4 credit hours of seminar, and at least 24 credit hours of research and 3 credit hours of elective courses.
The required core coursework consists of the following courses (all courses are required for all degrees):
· Introduction to Nuclear Reactor Physics (NUGN510) – 3 credits
· Introduction to Nuclear Reactor Thermal-Hydraulics (NUGN520) – 3 credits
· Nuclear Reactor Laboratory (NUGN580 – Taught at the TRIGA reactor facility) – 3 credits
· Nuclear Reactor Design (NUGN585 and NUGN586) – 4 credits total
The elective core courses consist of the following (pick four for the Master of Engineering Degree, pick two for the Master of Science Degree, and pick three for the Doctor of Philosophy Degree):
· Radiation Detection and Measurement (PHGN504) – 3 credits
· Nuclear Materials Science and Engineering (MTGN593) – 3 credits
· Risk and Reliability Engineering Analysis and Design (MEGN592) – 3 credits
· Applied Radiochemistry (CHGN511) – 3 credits
· Nuclear Fuel Cycle (NUGN506) – 3 credits
· Computational Reactor Physics (NUGN590) – 3 credits
· Nuclear Materials Politics and Public Policy (MTGN598) – 3 credits
· Nuclear Physics (PHGN522) – 3 credits
The remaining elective courses required for each degree are selected in consultation with the student’s advisor and committee. Possible courses include, but are not limited to:
· Introduction to Health Physics (NUGN535) – 3 credits
· Any elective core course not used to satisfy the elective core requirements
· Any 500-level course relevant to nuclear science and engineering
GRADUATE MINOR DEGREE OPTIONS
Minor in Nuclear Engineering
· Introduction to Nuclear Reactor Physics (NUGN510)
· Introduction to Nuclear Reactor Thermal-Hydraulics (NUGN520)
· Nuclear Reactor Laboratory (NUGN580)
· Nuclear Materials Politics and Public Policy (MTGN598)
Minor in Nuclear Materials Processing
· Introduction to Nuclear Reactor Physics (NUGN510)
· Nuclear Materials Science and Engineering (NUGN593)
· The Nuclear Fuel Cycle (NUGN506)
· Applied Radiochemistry (CHGN511) or Nuclear Materials Politics and Public Policy (MTGN598)
Minor in Nuclear Detection
· Nuclear Physics (PHGN522)
· Introduction to Nuclear Reactor Physics (NUGN510)
· Radiation Detection and Measurement (PHGN504)
· Nuclear Reactor Laboratory (NUGN580)
COMBINED DEGREE PROGRAM
Undergraduate students at Colorado School of Mines have the opportunity to begin work on a Master’s degree in Nuclear Science and Engineering (NSE) while completing their Bachelor’s degree. This Combined Degree program provides a vehicle for students to use up to 6 credit hours toward both their undergraduate and graduate curriculum requirements. Other application requirements are detailed under Admissions Requirements at https://gradprograms.mines.edu/nuclear-engineering/. GRE scores are not required. Apply at the beginning of your senior year for admission in the following fall semester.
STUDENT INFORMATION
Procedures
These procedures detail the processes students in NSE Program should follow:
- NSE Transfer and Waiver Procedures for all NSE students
- NSE Qualifying Exam Procedures for NSE Ph.D. students
- NSE Proposal Procedures for NSE M.S. and Ph.D. students
- NSE Thesis Defense Announcement Request form
- NSE Defense Procedures for NSE M.S. and Ph.D. students.