| OPTICS AND QUANTUM ELECTRONICS
(objectives)
- to make the student familiar with the principal experimental results who led to the reformulation of physics needed in order for atomic phenomena to be adequately described;
- to introduce students to the concept wave function and to Schroedinger's equation;
- to provide those mathematical tools needed to solve some problems concerning simple quantum systems (potential well, harmonic oscillator);
- to provide a quantum interpretation about the behaviour of some complex systems (like for instance
hydrogen-like atoms, spin, field quantization, band theory, effective mass)
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Code
|
20810065 |
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Language
|
ITA |
|
Type of certificate
|
Profit certificate
|
| Module: QUANTUM ELECTRONICS
(objectives)
- to make the student familiar with the principal
experimental results who led to the reformulation of physics needed in order
for atomic phenomena to be adequately described- to introduce students to the concept wave function and
to Schroedinger's equation- to provide those mathematical tools needed to solve
some problems concerning simple quantum systems (potential well, harmonic
oscillator)- to provide a quantum interpretation about the behaviour
of some complex systems (like for instance hydrogen-like atoms, spin, field
quantization, band theory, effective mass)
|
|
Code
|
20810065-1 |
|
Language
|
ITA |
|
Type of certificate
|
Profit certificate
|
|
Credits
|
6
|
|
Scientific Disciplinary Sector Code
|
FIS/03
|
|
Contact Hours
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48
|
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Type of Activity
|
Related or supplementary learning activities
|
|
Teacher
|
BORGHI RICCARDO
(syllabus)
Probability theory
Random variables
Averages and expected values
Examples of probability distributions
Boltzmann's statistics
Black body radiation
Planck's law
Photoelectric effect
Compton's effect
Rutherford's model
Bohr's quantum theory
de Broglie's waves
Schroedinger's equation for free particles
The superposition principle
The uncertainty principle
On the probabilistic meaning of the wavefunction
Physical observables and operators
Schroedinger's equation with forces
Eigenvalues and eigenfunctions
Stationary states
Potential step
Potential barriere: tunnelling
Quantum theory of alpha radioactive decay
Infinite potential well
2D rigid rotator: selection rules
Harmonic oscillator
Vibrations of diatomic molecules
Electron in a crystal: Bloch's theorem
Effective mass
(reference books)
Notes provided by the teacher
|
|
Dates of beginning and end of teaching activities
|
From 01/10/2018 to 25/01/2019 |
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Delivery mode
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Traditional
|
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Attendance
|
not mandatory
|
|
Evaluation methods
|
Oral exam
|
|
|
| Module: OPTICS
(objectives)
- to make the student familiar with the principal experimental results who led to the reformulation of physics needed in order for atomic phenomena to be adequately described;
- to introduce students to the concept wave function and to Schroedinger's equation;
- to provide those mathematical tools needed to solve some problems concerning simple quantum systems (potential well, harmonic oscillator);
- to provide a quantum interpretation about the behaviour of some complex systems (like for instance
hydrogen-like atoms, spin, field quantization, band theory, effective mass)
|
|
Code
|
20810065-2 |
|
Language
|
ITA |
|
Type of certificate
|
Profit certificate
|
|
Credits
|
6
|
|
Scientific Disciplinary Sector Code
|
FIS/03
|
|
Contact Hours
|
48
|
|
Type of Activity
|
Related or supplementary learning activities
|
|
Derived from
|
20801697 OPTICS in Communication and information technology engineering LM-27 SANTARSIERO MASSIMO
(syllabus)
Wave propagation, diffraction and interference. Fresnel and Fraunhofer approximations. Classical theory of coherence. Optical systems.
Detailed program: http://webusers.fis.uniroma3.it/~ottica/sant/ottica/main.html
(reference books)
- P. Mazzoldi, M. Nigro, C. Voci, “Elementi di Fisica – Elettromagnetismo e Onde”, II edizione, EdiSES (2008)
- F. Gori, Elementi di Ottica, ed. Accademica
- Notes provided by the teacher
|
|
Dates of beginning and end of teaching activities
|
From 01/10/2018 to 25/01/2019 |
|
Delivery mode
|
Traditional
|
|
Attendance
|
not mandatory
|
|
Evaluation methods
|
Oral exam
|
|
|
|
Università Roma Tre