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2022-SC2382-002PD-2022-SCP7081438-N0-SC2382
SCP7081438 - STRUCTURE OF MATTER 2022-2023 - PROF. LUCA SALASNICH
SCP7081438 - STRUCTURE OF MATTER 2022-2023 - PROF. LUCA SALASNICH
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Select section SCP7081438 - STRUCTURE OF MATTER 2022-2023 - PROF. LUCA SALASNICH
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Annunci
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Select activity Zoom Meeting ID 903 581 2937
Zoom Meeting ID 903 581 2937
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Select activity VIDEO INTRODUCTION
VIDEO INTRODUCTION
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Select activity VIDEO INTRODUCTION - Made by Federica Weblearning
VIDEO INTRODUCTION - Made by Federica Weblearning
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Select activity Video Lesson 1.1 Second quantization of light: Electromagnetic waves
Video Lesson 1.1 Second quantization of light: Electromagnetic waves
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Select activity Video Lesson 1.1 Second quantization of light: Electromagnetic waves - Second Part
Video Lesson 1.1 Second quantization of light: Electromagnetic waves - Second Part
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Slides Lesson 1.1
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Select activity Video Lesson 1.2 Second quantization of light: Quantization of the electromagnetic field
Video Lesson 1.2 Second quantization of light: Quantization of the electromagnetic field
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Select activity Video Lesson 1.2 Second quantization of light: Quantization of the electromagnetic field - Second Part
Video Lesson 1.2 Second quantization of light: Quantization of the electromagnetic field - Second Part
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Slides Lesson 1.2
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Select activity Video Lesson 2.1 Quantum properties of light: Fock states vs coherent states
Video Lesson 2.1 Quantum properties of light: Fock states vs coherent states
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Select activity Video 2.1 Quantum properties of light: Fock states vs Coherent states - Second Part
Video 2.1 Quantum properties of light: Fock states vs Coherent states - Second Part
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Select activity Slides Lesson 2.1
Slides Lesson 2.1
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Select activity Video Lesson 2.2 Quantum properties of light: Gas of photons and Planck law
Video Lesson 2.2 Quantum properties of light: Gas of photons and Planck law
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Select activity Video Lesson 2.2 Quantum properties of light: Gas of photons and Planck law - Second Part
Video Lesson 2.2 Quantum properties of light: Gas of photons and Planck law - Second Part
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Slides Lesson 2.2
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Select activity Video Lesson 2.3 Quantum properties of light: Casimir effect
Video Lesson 2.3 Quantum properties of light: Casimir effect
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Select activity Video Lesson 2.3 Quantum Properties of light: Casimir effect - Second part
Video Lesson 2.3 Quantum Properties of light: Casimir effect - Second part
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Slides Lesson 2.3
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Select activity Video Lesson 3.1 Matter-radiation interaction: Minimal coupling and dipole approximation
Video Lesson 3.1 Matter-radiation interaction: Minimal coupling and dipole approximation
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Select activity Video Lesson 3.1 Matter-radiation interaction: Minimal coupling and dipole approximation - Second part
Video Lesson 3.1 Matter-radiation interaction: Minimal coupling and dipole approximation - Second part
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Select activity Slides Lesson 3.1
Slides Lesson 3.1
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Select activity Video Lesson 3.2 Matter-radiation interaction: Fermi golden rule and spontaneous emission
Video Lesson 3.2 Matter-radiation interaction: Fermi golden rule and spontaneous emission
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Select activity Video Lesson 3.2 - Matter-radiation interaction: Fermi golden rule and stimulated emission - Second part
Video Lesson 3.2 - Matter-radiation interaction: Fermi golden rule and stimulated emission - Second part
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Slides Lesson 3.2
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Select activity Short Note: Derivation of the Fermi golden rule
Short Note: Derivation of the Fermi golden rule
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Select activity Video Lesson 3.3 Matter-radiation interaction: Absorption and stimulated emission
Video Lesson 3.3 Matter-radiation interaction: Absorption and stimulated emission
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Select activity Video Lesson 3.3 Matter-radiation interaction: Absorption and stimulated emission - Second Part
Video Lesson 3.3 Matter-radiation interaction: Absorption and stimulated emission - Second Part
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Slides Lesson 3.3
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Select activity Video Lesson 4.1 Electromagnetic transitions: Selection rules and Einstein equations
Video Lesson 4.1 Electromagnetic transitions: Selection rules and Einstein equations
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Select activity Video Lesson 4.1 Electromagnetic transitions: Selection rules and Einstein equations - Second Part
Video Lesson 4.1 Electromagnetic transitions: Selection rules and Einstein equations - Second Part
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Slides Lesson 4.1
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Select activity Video Lesson 4.2 Electromagnetic transitions: Line width of the electromagnetic transitions
Video Lesson 4.2 Electromagnetic transitions: Line width of the electromagnetic transitions
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Select activity Video Lesson 4.2 Electromagnetic transitions: Line width of electromagnetic transitions - Second part
Video Lesson 4.2 Electromagnetic transitions: Line width of electromagnetic transitions - Second part
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Slides Lesson 4.2
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Select activity Video Lesson 5.1 Relativistic wave equations: Klein-Gordon and Dirac equations
Video Lesson 5.1 Relativistic wave equations: Klein-Gordon and Dirac equations
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Select activity Video Lesson 5.1 Relativistic wave equations: Klein-Gordon and Dirac equations - Second part
Video Lesson 5.1 Relativistic wave equations: Klein-Gordon and Dirac equations - Second part
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Slides Lesson 5.1
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Select activity Video Lesson 5.2 Relativistic wave equations: Pauli equation and the spin
Video Lesson 5.2 Relativistic wave equations: Pauli equation and the spin
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Select activity Video Lesson 5.2 Relativistic wave equations: Pauli equations and the spin - Second part
Video Lesson 5.2 Relativistic wave equations: Pauli equations and the spin - Second part
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Slides Lesson 5.2
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Select activity Video Lesson 5.3 Relativistic wave equations: Energy spectrum of the relativistic hydrogen atom
Video Lesson 5.3 Relativistic wave equations: Energy spectrum of the relativistic hydrogen atom
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Select activity Video Lesson 5.3 Relativistica wave equations: Energy spectrum of the relativistic hydrogen atom - Second part
Video Lesson 5.3 Relativistica wave equations: Energy spectrum of the relativistic hydrogen atom - Second part
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Slides Lesson 5.3
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Select activity Video Lesson 6.1 Quantum many-body systems: Identical particles, bosons and fermions
Video Lesson 6.1 Quantum many-body systems: Identical particles, bosons and fermions
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Select activity Video Lesson 6.1 Quantum many-body systems: Identical particles, bosons and fermions - Second part 1
Video Lesson 6.1 Quantum many-body systems: Identical particles, bosons and fermions - Second part 1
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Select activity Video Lesson 6.1 Quantum many-body systems: Identical particles, bosons and fermions - Second part 2
Video Lesson 6.1 Quantum many-body systems: Identical particles, bosons and fermions - Second part 2
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Slides Lesson 6.1
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Select activity Video Lesson 6.2 Quantum many-body systems: Uniform Fermi gas of non-interacting electrons
Video Lesson 6.2 Quantum many-body systems: Uniform Fermi gas of non-interacting electrons
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Select activity Video Lesson 6.2 Quantum many-body systems: Uniform Fermi gas of non-interacting electrons - Second Part 1
Video Lesson 6.2 Quantum many-body systems: Uniform Fermi gas of non-interacting electrons - Second Part 1
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Select activity Video Lesson 6.2 Quantum many-body systems: Uniform Fermi gas of non-interacting electrons - Second part 2
Video Lesson 6.2 Quantum many-body systems: Uniform Fermi gas of non-interacting electrons - Second part 2
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Slides Lesson 6.2
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Select activity Video Lesson 6.3 Quantum many-body systems: Hartree-Fock method for bosons and fermions
Video Lesson 6.3 Quantum many-body systems: Hartree-Fock method for bosons and fermions
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Select activity Video Lesson 6.3 Quantum many-body systems: Hartree-Fock method for bosons and fermions - Second part 1
Video Lesson 6.3 Quantum many-body systems: Hartree-Fock method for bosons and fermions - Second part 1
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Select activity Video Lesson 6.3 Quantum many-body systems: Hartree-Fock method for bosons and fermions - Second part 2
Video Lesson 6.3 Quantum many-body systems: Hartree-Fock method for bosons and fermions - Second part 2
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Select activity Slides Lesson 6.3
Slides Lesson 6.3
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Select activity Video Lesson 7.1 Superfluids: Time-dependent Gross-Pitaevskii equation
Video Lesson 7.1 Superfluids: Time-dependent Gross-Pitaevskii equation
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Select activity Video Lesson 7.1 Superfluids: Time-dependent Gross-Pitaevskii equation - Second part
Video Lesson 7.1 Superfluids: Time-dependent Gross-Pitaevskii equation - Second part
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Select activity Slides Lesson 7.1
Slides Lesson 7.1
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Select activity Video Lesson 7.2 Superfluids: Equations of superfluid hydrodynamics
Video Lesson 7.2 Superfluids: Equations of superfluid hydrodynamics
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Select activity Video Lesson 7.2 Superfluids: Equations of superfluid hydrodynamics - Second part
Video Lesson 7.2 Superfluids: Equations of superfluid hydrodynamics - Second part
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Select activity Slides Lesson 7.2
Slides Lesson 7.2
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Select activity Video Lesson 8.1 Density functional theory: Thomas-Fermi density functional
Video Lesson 8.1 Density functional theory: Thomas-Fermi density functional
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Select activity Video Lesson 8.1 Density functional theory: Thomas-Fermi density functional - Second part
Video Lesson 8.1 Density functional theory: Thomas-Fermi density functional - Second part
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Slides Lesson 8.1
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Select activity Video Lesson 8.2 Density functional theory: Hohenberg- Kohn theorem and Kohn-Sham density functional - A
Video Lesson 8.2 Density functional theory: Hohenberg- Kohn theorem and Kohn-Sham density functional - A
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Select activity Video Lesson 8.2 Density functional theory: Hohenberg-Kohn theorem and Kohn-Sham density functional - B
Video Lesson 8.2 Density functional theory: Hohenberg-Kohn theorem and Kohn-Sham density functional - B
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Select activity Slides Lesson 8.2
Slides Lesson 8.2
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Select activity Video Lesson 9.1 Second quantization of matter: Schrodinger field for bosons and fermions
Video Lesson 9.1 Second quantization of matter: Schrodinger field for bosons and fermions
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Slides Lesson 9.1
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Select activity Video Lesson 9.2 Second quantization of matter: Statistical mechanics of non-interacting bosons and fermions
Video Lesson 9.2 Second quantization of matter: Statistical mechanics of non-interacting bosons and fermions
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Select activity Slides Lesson 9.2
Slides Lesson 9.2
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Select activity Video Lesson 9.3 Second quantization of matter: Hamiltonian in second quantization with interaction
Video Lesson 9.3 Second quantization of matter: Hamiltonian in second quantization with interaction
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Select activity Video Lesson 9.3 Second quantization of matter: Hamiltonian in second quantization with interaction - Second part
Video Lesson 9.3 Second quantization of matter: Hamiltonian in second quantization with interaction - Second part
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Select activity Slides Lesson 9.3
Slides Lesson 9.3
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Select activity Video Lesson 10.1 Bosons in a double-well potential: Bose-Hubbard Hamiltonian
Video Lesson 10.1 Bosons in a double-well potential: Bose-Hubbard Hamiltonian
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Select activity Video Lesson 10.1 Bosons in a double-well potential: Bose-Hubbard Hamiltonian - Second part
Video Lesson 10.1 Bosons in a double-well potential: Bose-Hubbard Hamiltonian - Second part
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Select activity Slides Lesson 10.1
Slides Lesson 10.1
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Select activity Video Lesson 10.2 Bosons in a double-well potential: Josephson effect
Video Lesson 10.2 Bosons in a double-well potential: Josephson effect
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Select activity Video Lesson 10.2 Bosons in a double-well potential: Josephson effect - Second part
Video Lesson 10.2 Bosons in a double-well potential: Josephson effect - Second part
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Select activity Slides Lesson 10.2
Slides Lesson 10.2
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