Solid State Physics 2
203-2-5251
Course information
- Credit points
- 3.50
- Lecture hours
- 3.00
- TA hours
- 1.00
- Lab hours
- 0.00
Summary
Semiconductors:Energy bands, effective mass, cyclrotron resonance, intrinsic and extrinisic semiconductors, calculating chemical potential, p-n junction, Thomas Fermi screening, Biased p-n junction .
Magnetic materials:
Magnetic Hamiltonian, perturbation theory, Hund's Rules, Curie's Law, Pauli paramagnetism, exchange interaction, superexchange, Curie-Weiss law, spin waves.
Superconductivity:
Meisner effect, London Equation, Ginzburg Landau theory, critical current, upper critical field, introduction to BCS formalism
Syllabus
- Semiconductors:
Energy bands, effective mass, cyclrotron resonance, intrinsic and extrinisic semiconductors, calculating chemical potential, p-n junction, Thomas Fermi screening, Biased p-n junction . - Magnetic materials:
Magnetic Hamiltonian, perturbation theory, Hund's Rules, Curie's Law, Pauli paramagnetism, exchange interaction, superexchange, Curie-Weiss law, spin waves. - Superconductivity:
Meisner effect, London Equation, Ginzburg Landau theory, critical current, upper critical field, introduction to BCS formalism.
Bibliography
Ashcroft and Mermin, Solid State Physics.Pierre-Gilles de Gennes, Superconductivity of metals and alloys.
Michael Tinkham, Introduction to superconductivity
פיסיקת מצב מוצק 2
203-2-5251
תקציר
איןסילבוס
- Semiconductors:
Energy bands, effective mass, cyclrotron resonance, intrinsic and extrinisic semiconductors, calculating chemical potential, p-n junction, Thomas Fermi screening, Biased p-n junction . - Magnetic materials:
Magnetic Hamiltonian, perturbation theory, Hund's Rules, Curie's Law, Pauli paramagnetism, exchange interaction, superexchange, Curie-Weiss law, spin waves. - Superconductivity:
Meisner effect, London Equation, Ginzburg Landau theory, critical current, upper critical field, introduction to BCS formalism.
ביבליוגרפיה
Ashcroft and Mermin, Solid State Physics.Pierre-Gilles de Gennes, Superconductivity of metals and alloys.
Michael Tinkham, Introduction to superconductivity
Last changed on April 25, 2022 by Bar Lev, Yevgeny (ybarlev)