Bachelor course

Semester 1

• Presentation of the educational program for first-year students of LFI. Pudalov V.M.

Semester 2

• An introduction to the physics of superconductivity, quantum materials, two-dimensional structures, and low temperature physics. Pudalov V.M., Kuzmicheva T.E., Morgun L.A., Borisov A.E.

Semester 3

• Horizons of physics. Nobel (and Nobel) discoveries in condensed matter physics and superconductivity. Pudalov V.M., Kuzmicheva T.E., Morgun L.A., Borisov A.E., Sadakov A.V.

Semester 4

• Introduction to vacuum and cryogenic technology. Dif. test. Morgun L.A.
• Individual workshop under the supervision of a curator. Dif. credit.

Semester 5

• Introduction to condensed matter physics. Exam. Prudkoglyad V.A.
• Measurement methods in low temperature physics. Differential calculation. Borisov A.E.
• Individual workshop under the supervision of a curator. Dif. credit.

Semester 6

• Quantum magnetism and methods of magnetic structure research. Exam. Gippius A.A.
• Physical materials science. Dif. credit. Pervakov K.S.
• Individual workshop under the supervision of a curator. Dif. credit.

Semester 7

• Introduction to the physics of superconductivity. Exam. Kuzmichev S.A.
• Diagramming technique. Exam. Arseev P.I.
• Practical training on modern experimental methods. Dif. test. Levakhova A.Y.
• Seminars on strongly correlated systems (annual course). Dif. offsetting. Pudalov V.M.
• Research and development credit.

Semester 8

• Tunneling effects in superconductors. Exam. Kuzmicheva T.E.
• Fundamentals of solid state physics. Exam. Kuntsevich A.Y.
• Seminars on strongly correlated systems (annual course). Dif. offsetting. Pudalov V.M.
• Research and development credit.

Magistracy

Semester 9

• Quantum solid state physics (one-year course). Exam. Grigoriev P.D.
• Quantum physics of low-dimensional systems (annual course). Dif. offsetting. Pudalov V.M. (Abbreviated version for HSE)
• High-temperature superconductivity. Exam. Kuzmicheva T.E.
• Green’s functions and quantum field methods in condensed matter theory. Dif. offsetting. Katanin A.A.
• Seminars on modern condensed matter physics (annual course). Dif. offsetting. Pudalov V.M.
• Research and development credit.

Semester 10

• Quantum solid state physics (one-year course). Exam. Grigoriev P.D.
• Quantum physics of low-dimensional systems (annual course). Exam. Pudalov V.M.
• Topological effects and new superconductivity. Exam. Rakhmanov A.L.
• Green’s functions and quantum field methods in condensed matter theory. Exam. Katanin A.A.
• Seminars on modern condensed matter physics (annual course). Dif. offsetting. Pudalov V.M.
• Research and development credit.

Semester 11

• Seminars on the physics of quantum materials (annual course). Dif. offsetting. Pudalov V.M.
• Research and development credit.

Semester 12

• Seminars on the physics of quantum materials (annual course). Dif. offsetting. Pudalov V.M.
• Research and development credit.