Medium Of Instructions | Mode Of Learning | Mode Of Delivery |
---|---|---|
English | Self Study | Video and Text Based |
From understanding electrons in magnetic fields to exploring the responses of solid atoms, the Concepts In Magnetism And Superconductivity certification course covers magnetization, susceptibility, and their real-world applications. Superconductivity topics include zero resistance, BCS theory, Josephson junctions, high-TC superconductors, emphasizing practical implications for quantum chips and various industries.
Designed for B Tech, BE, M Tech, ME, MSc, and PhD students, the Concepts In Magnetism And Superconductivity certification by Swayam requires a grasp of modern physics, quantum mechanics, and condensed matter physics basics. It meticulously builds from simple principles to intricate phenomena, fostering a deep understanding relevant to various industries.
Fees Informations | Certificate Availability | Certificate Providing Authority |
---|---|---|
INR 1000 | yes | IIT Kharagpur |
The Concepts In Magnetism And Superconductivity certification fees is free. However, if you want a certificate, you must register and take the proctored exam at designated centres, which is optional and comes with a fee of Rs 1000.
Concepts In Magnetism And Superconductivity Certification Fee Structure
Particulars | Total Fees |
Concepts In Magnetism And Superconductivity (exam) | Rs 1000/- |
Academic Qualifications
The Concepts In Magnetism And Superconductivity certification course is designed for students pursuing B Tech, BE, M Tech, ME, MSc, or PhD degrees, and the prerequisites include a background in modern physics, elementary quantum mechanics, and basic knowledge of condensed matter or solid-state physics.
Certification Qualifying Details
To receive the Concepts In Magnetism And Superconductivity certification by Swayam, you need a minimum average assignment score of 10/25 and an exam score of 30/75.
After completing the Concepts In Magnetism And Superconductivity certification syllabus, you will gain a comprehensive understanding of magnetism and superconductivity and their underlying principles. You will also learn about magnetization, susceptibility in para and diamagnetic cases, and their practical applications.
Upon completion of the Concepts In Magnetism And Superconductivity training, you will learn about essential concepts like zero resistance, the Meissner effect, BCS theory, and the fascinating properties of high-TC superconductors. Additionally, you will work through complex phenomena such as Josephson junctions, quantum chips, and qubits, exploring their applications.
The Concepts In Magnetism And Superconductivity online course is designed for students who have a background in modern physics, elementary quantum mechanics, and basic knowledge of condensed matter or solid-state physics. This course is also beneficial for:
Follow these steps to join the Concepts In Magnetism And Superconductivity classes:
Step 1: Browse the URL below:
https://onlinecourses.nptel.ac.in/noc23_ph36/preview
Step 2: Click on the “Sign-in/ Register” button
Step 3: Fill out the necessary details and submit the form
The magnetic moment, Bohr magneton, Bohr-van Leeuwen theorem. Magnetization and susceptibilityan isolated atom in a magnetic field, dia, para and ferromagnetic susceptibilities. Hund’s rules. Van Vleck paramagnetism.
Magnetization of a collection of independent ions: Curie’s Law. Adiabatic demagnetization, Pauli paramagnetism. Ions in a solid: Crystal field, Orbital quenching, Jahn-Teller effect.
Magnetic resonance technique: concepts of NMR, ESR. Magnetic interactions, relevant energy scales, dipolar interaction and origin of exchange.
2-electron system, spin Hamiltonian. Direct, super, indirect and itinerant exchange. Magnetic impurity, RKKY and the concept of GMR.
1D Ising model: mean-field and exact solution. Mermin-Wagner theorem. FM Heisenberg model, AFM and the concept of frustration.
Superconductivity: discovery and phenomena. Zero resistance and Meissner effect. London equation and two fluid description. Cooper problem.
BCS theory, energy gap, isotope effect, transition temperature, Specific Heat. Type-I, Type-II superconductors, Abrikosov vortices.
Quantum interference, Josephson effect, superconducting junctions, squid and its applications, qubits and quantum chips. Novel superconductors.
The Concepts In Magnetism And Superconductivity certification offers an optional exam. Your final score is determined by averaging the best 8 out of 12 assignments (25%) and your proctored exam score (75%).
You should have a foundation in modern physics, elementary quantum mechanics, and a basic understanding of condensed matter or solid-state physics.
The course spans 8 weeks and covers fundamental concepts of magnetism and superconductivity, gradually progressing to advanced topics, with an emphasis on practical applications.
Industries like Microsoft, IBM, Google Quantum AI, Philips, Intel, and Samsung benefit from the practical insights gained, especially in fields involving quantum chips, superconductors, and advanced electronics.
The course covers topics such as zero resistance, the Meissner effect, BCS theory, high-TC superconductors, Josephson junctions, and their applications in quantum technologies.
It is designed for B Tech, BE, M Tech, ME, MSc, and PhD students interested in magnetism, superconductivity, and their applications, providing a blend of foundational knowledge and advanced concepts.