The integrated course is divided in two sections. This course plays a central role in the development of an Engineer expert in Nanotechnologies, because it extensively provides the basic elements for the understanding of subsequent courses of the MSc learning program. The second part (3 ECTS, second module) is taught to all students, and covers electronic devices based on compound semiconductors and nanostructures.Īim of the course is to provide the theoretical basis of advanced solid state physics and of the physics of nanostructures and their applications to electronic devices, with particular emphasis to the applications in the area of ICTs and energy.
In both cases the students get (although with different levels of in-depth analysis) the fundamentals of semiconductor device physics, in particular semiclassical models for the analysis and design of (opto)electronic devices and their analytical approximations, functional to study more advanced topics and devices. The second team is composed of students with an adequate background of semiconductors and basic electronic devices. The first team is composed of students with a limited background in the area of semiconductor devices, in particular junctions and MOSFETs, which have to be learned in order to understand further topics in (opto)electronic devices. The students are organized into two teams for the initial 3 ECTS (first module). In the Electronic Devices section, the students learn the basics for understanding the physics and the design of electronic and optoelectronic devices. Solid state physics/Electronic devices (Solid state Physics)Īim of the Solid state physics/Electronic devices course is to provide the theoretical basics of solid state physics and their applications to solid state electronic devices, with particular emphasis in applications in the area of ICTs and energy. In the Electronic Devices section, the students learn the basics for understanding the physics and the design of electronic devices. The second part of the first section (taught to all students) general methods for the evaluation of the band structure of conducting/semiconducting solids are given. In both cases the students get (up to different levels of in-depth analysis) the fundamentals of solid state physics functional to study electronic properties of nanostructured materials.
The second team is composed of students with an adequate background of modern physics. The first team is composed of students with a low background in the areas of quantum mechanics and statistics, which have to be learned in order to understand ensuing subjects in physics of matter and electronic devices. In the Solid State Physics section the students are organized into two teams for the initial 4 ECTS. Solid state physics/Electronic devices (Electronic devices)Īim of the course (1st semester, 1st year) is to provide the theoretical basics of solid state physics and their applications to solid state electronic devices, with particular emphasis in applications in the area of ICTs and energy.
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