The time sequence proposed by the development of subjects is shown in the following table:
Theoretical physics
| September |
October |
November |
December |
January |
February |
March |
April |
May |
June |
| |
Quantum Field Theory I |
|
| |
Elemental Particles |
|
| |
T.C. de Campos II |
|
| |
Electroweak Interactions |
|
| |
Strong Interactions |
|
Astrophysics
| September |
October |
November |
December |
January |
February |
March |
April |
May |
June |
| |
Stellar Astrophysics |
|
| |
Observational Astrophysics |
|
| |
General relativity |
|
| |
Cosmology |
|
Particles and Nuclear Physics
|
Septemeber
|
October |
November |
December |
January |
Febre |
Març |
Abril |
Maig |
Juny |
| |
Experimental Particle Physics |
|
| |
Experimental Nuclear Physics |
|
| |
Experimental Techniques in Nuclear and Particle Physics |
|
| |
Medical Applications of Nuclear and Particle Physics |
|
Photonics
| September |
October |
November |
December |
January |
February |
March |
April |
May |
June |
| |
Optoelectronics Foundations |
|
| |
Optoelectronic Devices and Materials |
|
| |
Nonlinear Optics and Lasers |
|
| |
Advanced Optical Instrumentation |
|
| |
Optical fiber: guidance and devices |
|
| |
Photonic crystals and optical pulses |
|
| |
Research complements |
| |
Master's Degree Final Project |
Given that students must take 36 optional ECTS during the first semester, the duration of this will be slightly longer, starting in the third week of September and finishing in the third week of February, a total of 18 teaching weeks.
