This course consists of two different parts:
In the first part, the most relevant aspects of Laser Physics are deeply described within the semiclassical theory framework. The rate-equations for laser system are derived too and their theoretical applications for these systems are analized.
The second one part is dedicated to study the basic foundations of Nonlinear Optics and the associated physical processes that occurs in different media where high light intensities can be propagated.
In this course we will study atomic nuclei, nucleons, and elementary particles. The contents are: properties of atomic nuclei, nucleon-nucleon interaction, nuclear models and nuclear phenomenology, radioactive decay and radiation protection, introduction to the standard model, symmetries and conservation laws, CPT invariance, the quark model and interactions and gauge theories.
This course provides an introduction to Atomic and Molecular Physics. The contents to be covered are as follows:
Lesson 1. Helium and two-electron ions.
Lesson 2. Many-electron atoms and ions.
Lesson 3. The atomic spectrum.
Lesson 4. Molecular structure.
Fundamental knowlegde of spectroscopy concepts and the application of experimental methods by obtaining parameters of interest in the field of Physical Chemistry.
The main blocks are:
1.- Spectroscopy and Quantum Mechanics.
2.-The interaction of the electromagnetic radiation with matter.
3.-Types of spectroscopies.
En esta asignatura se estudian los núcleos atómicos, los nucleones y las partículas elementales. Los contenidos son: propiedades de los núcleos atómicos, la interacción nucleón-nucleón, modelos nucleares y fenomenología nuclear, desintegración radiactiva y protección radiológica, introducción al modelo estándar, simetrías y leyes de conservación, invariancia CPT, el modelo quark e interacciones y teorías gauge.