Third year accessible after 2 years of general training in the field of Physics, E-applicant application.
Benefits of the program
The Degree addresses the different fields of Physics and offers students the opportunity to choose any specialization after. Students choose a subsidiary in Chemistry, Mechanics or 3EA (6 ECTS per semester), based on their personal professional project and training. The 3rd year of the Degree comprises, during the first semester, an in-laboratory experimental TU and a TU introducing Digital methods on computer and, during the second semester, a Physics project TU where students, working in pairs, carry out a theoretical, digital and/or experimental personal study. In the second semester, depending on the project, students may choose an option focusing on materials, another based on sensors or in-company placement (or in a research laboratory).
Acquiring sound general scientific training on theoretical, experimental and digital levels; ability to solve theoretical problems in the field of Physics and its applications (materials, energy, environment); ability to roll out an experimental approach; ability to collect, manage and present results, ability to explain and present - orally and in writing, a project approach, knowledge brought into play, results obtained.
eCandidat et Etudes en France
Schedule of studies
Placement in-company or in a research laboratory is proposed as an option.
Your future career
Most students pursue their studies with a Master's or enrol in an engineering school.
This Degree, in particular, offers access to UPEM's Master's in Risks and Environment or Material Sciences and Engineering.
It also leads to Master's in Physics in other universities and to generalist Engineering schools.
A 2-year multidisciplinary university programme in Physics and Chemistry which students may pursue with a specialization in the 3rd year in Physics provides a wide range of fields for pursuing studies with a Master's or in an Engineering school
Introduction to solid-state chemistry: methods for preparing solids; structure of metallic, atomic and molecular edifices; x-ray diffraction, Miller index; defects in solids, alloys; metallic bond; metal and semi-conductor conductivity application; lenses.
Interference, light as a wave, Young's experiment, coherence, intensity of the interference produced by a double slit, thin-film interference, Michelson's interferometer. Diffraction and wave theory of light, diffraction via a slit, diffraction via a circular opening, Rayleigh criterion, diffraction via a double slit, multiple slits, networks.
Undertaking a chemistry project in pairs or in small groups, implementing the theoretical concepts and skills acquired during the Degree. This leads to a written report and oral presentation in front of a jury.
Quantum description of the atom. Quantum spectroscopy bases. Spectroscopic terms. Notions of group theory. Fermi's golden rule. Application for atomic spectroscopy and microwave molecular spectroscopy, IR and UV.