M.Sc Nuclear Physics & Technology, Master of Science in Nuclear Physics & Technology, Syllabus, Eligibility, Duration, Degree Course

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Master of Science in Nuclear Physics & Technology

Duration

2 Years

Level

Post Graduation

Type

Degree

Eligibility

B.Sc

M.Sc Nuclear Physics & Technology or Master of Science in Nuclear Physics & Technology is a two-year postgraduate degree program. Nuclear Physics and Technology is a significant component of postgraduate Physics and Technology programmes. This Nuclear Physics and Technology program will train nuclear physics instructors and researchers who will contribute to technological growth. The degree provides a specialization in nuclear physics and technology through an outcome-based curriculum that emphasizes critical, analytical, and problem-solving abilities to prepare students for scientific research and jobs.

M.Sc Nuclear Physics & Technology Eligibility

The students must have qualified for their Bachelor's degree or any other equivalent qualification from a recognized University.
The candidates should have secured a minimum of 55% aggregate marks in their Bachelor's.

M.Sc Nuclear Physics & Technology Syllabus

Syllabus of Nuclear Physics and Technology course as prescribed by various colleges & universities.

M.Sc Nuclear Physics & Technology Year-I
Sr. No.	Subjects to Study
1	Electromagnetic Theory
2	Electronic Devices and Circuits
3	Laser, Nonlinear Optics and Integrated Optics
4	Molecular Physics and Spectroscopy
5	Nuclear Detectors and Techniques
6	Nuclear Physics and Optical Physics
7	Safety Aspects of Ionizing Radiations
M.Sc Nuclear Physics & Technology Year-II
1	Condensed Matter Physics
2	Computational Techniques and Programming
3	Introduction to Spintronics
4	Materials Characterization
5	Physics of Thin Films
6	Physics of Nano Materials

How is the M.Sc Nuclear Physics & Technology Course Beneficial?

Advanced level knowledge and comprehension of nuclear physics and related technologies is provided.
Assists students in applying nuclear physics concepts to new applications.
Allows students to analyze mathematical models of physical systems in order to improve system performance and determine physical system constraints.
Improves students' capacity to create mathematical models of specified physical systems.
Prepares pupils to evaluate the validity of suggested notions.
Develops students' abilities to become teachers and researchers.
Students are taught teamwork and lifelong learning as part of their professional growth.

M.Sc Nuclear Physics & Technology Employment Areas

College or University
Government Organizations
Hospitals / Financial Services / Health Care
National Research Laboratories
Research Institutes and Corporations

B.Sc (Hons) Applied Physics B.Sc. + M.Sc. (Applied Physics) B.Sc. + M.Sc. (Physics) BSc (Hons) Physics BSc Applied Physics BSc Physical Sciences BSc Physics BTech Engineering Physics M.Phil. (Applied Physics) M.Phil. (Physics) M.Phil. + Ph.D. (Physics) M.Sc (Tech) Geophysics M.Sc Applied Physics and Ballistics M.Sc Applied Solid State Physics MSc (Hons) Physics MSc Applied Physics MSc Biophysics MSc Engineering Physics MSc Geophysics MSc Medical Physics MSc Physics MSc Renewable Energy MTech Applied Geophysics MTech Engineering Physics Ph.D. (Applied Physics) Ph.D. (Biophysics) Ph.D. (Chemical Thermodynamics) Ph.D. (Kinematics) Ph.D. (Nuclear Physics) Ph.D. (Physics) Ph.D. (Thin Films)

Diploma in Meteorology and atmospheric physics Post Graduate Diploma in Space Science & its Applications

M.Sc Nuclear Physics & Technology