Atoms, molecules and photons  

Specific Competition CE6 - Understand the structure of matter being able to solve problems related to the interaction between matter and radiation in different energy ranges CE11 - Know how to use current astrophysical instrumentation (both in terrestrial and space observatories) especially that which uses the most innovative technology and know the fundamentals of the technology used General Competencies CG1 - Know the advanced mathematical and numerical techniques that allow the application of Physics and Astrophysics to the solution of complex problems using simple models CG3 - Analyze a problem, study the possible published solutions and propose new solutions or lines of attack Basic skills CB6 - Possess and understand knowledge that provides a basis or opportunity to be original in the development and/or application of ideas, often in a research context CB7 - That students know how to apply the knowledge acquired and their ability to solve problems in new or little-known environments within broader contexts CB10 - That students possess the learning skills that allow them to continue studying in a way that will be largely self-directed or autonomous Exclusive to the Structure of Matter Specialty CX13 - Understand in depth the basic theories that explain the structure of matter and collisions as well as the state of matter in extreme conditions CX14 - Understand the interrelation between atoms, molecules and radiation and diagnostic tools for the state of matter from the spectrum CX16 - Understand the mechanisms of electromagnetic wave propagation and the dynamics of charged particles 6. Subject contents Theoretical and practical contents of the subject - Professor: Dr. Javier Hernández Rojas - Topics (headings): 1. Quantification of the electromagnetic field. Photons. 2. States of the field. 3. Radiation-matter interaction. 4. One- and two-photon absorption processes. 5. Two-level atom interacting with a radiation field. 6. Master Equation. Evolution of populations and coherences: Rabi oscillations. 7. Point groups: molecular symmetry. 8. Polyatomic molecules: electronic, vibrational and rotational structure. 9. Molecular spectroscopy. 10. Molecules of astrophysical interest.
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Atoms, molecules and photons
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