M.Sc Nuclear Physics & Technology

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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