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MMDU
Apply Now | M.Sc (Physics)

The term(s)/ expression(s) mentioned along with the nomenclature of the programme(s) indicates the specialization/ uniqueness (stream, major, scheme combination, progression option etc.) as the case may be.

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M.Sc | in (Physics)

This prestigious course is tailored for the graduates who wish to deepen their knowledge of physics and are looking to pursue a research career. The curriculum is enriched with the core subjects of Physics & allied areas. The curriculum consists of core courses (theory and labs), elective courses and dissertation/ project. The course is designed with an aim to provide knowledge and skills in physics suitable for a professional career in Research and Development. The students are also encouraged to carry out research projects in their final semester.

Course Objective

  • To develop the ability to think rigorously to meet higher level expectations of academia and research with sufficient transferable skills.
  • To impart higher level knowledge and understanding of advanced quantum mechanics, nuclear physics, atomic and molecular physics, and Statistical Physics and Thermodynamics.
  • To develop an understanding of fundamentals of electronics in order to deepen the understanding of electronic devices that are part of the technologies that surround us
  • To enhance students’ ability to develop mathematical models of defined physical systems

Course Outcome

  • Demonstrating a severe understanding of the core theories and principles of physics which include advanced electronics, electromagnetism, Statistical Physics & thermodynamics, and advanced quantum mechanics.
  • Applying the knowledge of Physics to critical models and solve physics-related Problems.
  • Establishing proficiency in the collection, analysis and interpretation of data.
  • Gaining team work and insightful understanding of how to plan and execute the Master Thesis within one of the research areas.

Curriculum

1st Semester

Classical mechanics introduces the concept of Lagrangian, Hamiltonian formalism and canonical transformation.

Mathematical Physics deals with problems of Linear algebra, complex variables, special functions and Laplace transform.

The branch of mechanics that deals with mathematical description of the motion and interaction of subatomic particles, incorporating the concepts of quantization of energy, wave-particle duality & the uncertainty principle .

Provides an overview of nuclear properties and their measurements, nuclear forces, nuclear reactions and radiation detectors.

Provide overview of the principles of diode as circuit element, amplifiers, small signal electronics, power amplifiers, thyristors and other devices, operational amplifier and its applications.

Practicals related to the Quantum and modern physics

The Students will be able to understand the basics of nuclear radiation and its measurement

2nd Semester

Study of phenomenon associated with charged bodies in motion and varying magnetic and electric fields , in which we use the concept of electrostatics ,electromagnetic and Maxwell equations.

Students deal with gamma and beta functions, partial differential equations in physical problems, fourier series and transform and - probability theory and random variables and explore with real life problems.

Students will study the various Approximation methods for quantum mechanical problems.

It provide the information about radioactive decays,subatomic particles , including atomic constituents such as mesons, baryons and neutrino which produced by radioactive and scattering processes.

Electronics-II covers Logic Circuits, Circuit Analysis and Design, Data Processing Circuits and Number Systems, Flip Flops, Shift Registers and counters.

Provide exposure about analog electronics through experimental observations, analysis and interpretation of experimental data.
The Students will be able to understand the basics of nuclear radiation and its measurement
3rd Semester

Provide the study of isolated, separated ions and atoms ,along with electron arrangement and excitation.Molecular physicists investigate molecules that have several atoms.

It provides the information of crystallography, X-ray diffraction,thermal properties and superconductivity .It deals with the physical properties of condensed phase of matter.

This course introduces programming language and numerical methods.

Basic Characterization and applications of laser.

Numerical computation technique with Fortran Programming 

Elective I (Any One of the following)

Provides brief history of the development of synthetic polymers, chains and crystallinity, some physical techniques for studying polymers, electrical and optical properties.

It deals with relativistic quantum mechanics and quantum field theory
Elective II (Any One of the following))

Students will be able to understand different types of laser system and knowledge about the transmission characteristics of optical fiber  

Students will be able to understand the structure of solids, crystal imperfections and phase diagrams.  
4th Semester

This course is intended to provide a firm foundation of macroscopic system, ensembles, classical,Quantum statistics, their applications and statistical thermodynamics.

Students will learn electrical, Magnetic, Dielectric and Optical Properties of solids and Liquids.

This course describes classification of Nano-materials, properties of Nano-particles, particle size and surface structure determination.

Characterization of various physical properties of materials and nano-fabrication.

Characterization of various electronics devices, programming with 8085 microprocessor and computational problem in physics.

Elective/Specialization- III (Any one of the following subject)

It deals with numerical differentiation and integration by programming and also provide simulation of physics problem by using random numbers and Monte-Carlo technique: algorithm development and programming.

Students will learn physics of semiconductor devices & its fabrication technology

Elective/Specialization- IV (Any one of the following subject)

This syllabus describes the various accelerators

, particle induced X-ray emission spectrometry, X-ray fluorescence spectrometry and Neutron activation analysis.

Students will learn physical metallurgy of ferrous and non-ferrous alloys with their mechanical properties.

OR

Dissertation work involves integration and implementation of knowledge and skills acquired during the program.

Project Based Learning

  • Hands-on project training for the students in Radiation Physics, Polymer Science, Material Science, Nano Science, Computational Physics, Astrophysics and Planetary Science
  • Expert talks and industrial workshop for the students to enhance their employability
  • Training the students in team work for continuous professional development with personality development workshops and holistic education approach

Career Opportunities

The course produces graduates with a critical, analytical and flexible approach to problem solving, enhancing laboratory and professional competence and enabling students to work independently and use their initiative in solving the diverse problems they encounter. The course has a vast scope in diverse sectors of life sciences and technology such as National Thermal Power Corporation, Indian Space Research Organization, Bharat Heavy Electricals Limited, Defence Research and Development Organization, Bhabha Atomic Research Centre, Oil and Natural Gas Corporation. The course not only has a significant scope in research and development but also has an option to step ahead for civil services for which one is supposed to clear civil service exams.

Career prospects

  • Nano Scientist
  • Astronomist
  • Assistant Scientist
  • Consulting Physicist
  • Computational Physics Expert
  • Senior Physicist
  • Planetary Science Consultant
  • Data Analyser
  • Scientific Editor
  • Defence Officer

Eligibility Criteria

Duration: 2 yrs.

B.Sc (Hons.)/ B.Sc. (Non Medical) in concerned subject with at least 50% marks in aggregate from any recognized University

Fees

Course Course Fee 
Indian (INR) International (USD)
Tuition Fee Development Fee
M.Sc. Physics
40,000 5,000
2500

Note:

  1. The Fee will have to be deposited at the time of Counselling.
  2. University Charges will be extra as per University norms.
  3. Fee once paid shall not be refunded under any circumstances.
  4. There will be an annual increase of 7% in tuition fee.
  5. Students Fund for all the students is Rs.2,000/- p.a.
  6. Life time Alumni Membership fee is Rs. 4,000/-.
  7. Hostel & Transport Charges will be extra.
  8. Students who wish to leave the Institute mid-stream, will have to deposit the fee for the remaining period of the course as per judgement of the Hon'ble Supreme Court in the case of Islamic Academy of Education and others Vs State of Karnataka & PA lnamdar case.
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