Physics of quantum-dimensional systems
Description: The discipline studies the general principles of dimensional quantization, with the basics of physical processes occurring in solid-state structures with reduced dimensionality, including semiconductor structures with quantum wells, quantum threads and quantum dots, with the basics of modern technologies for the development and creation of such structures and with the principles of developing effective nanoelectronics and their applications.
Amount of credits: 5
Пререквизиты:
- Physics of Condensed State
Course Workload:
Types of classes | hours |
---|---|
Lectures | 15 |
Practical works | 30 |
Laboratory works | |
SAWTG (Student Autonomous Work under Teacher Guidance) | 75 |
SAW (Student autonomous work) | 30 |
Form of final control | Exam |
Final assessment method |
Component: Component by selection
Cycle: Base disciplines
Goal
- The purpose of studying the discipline is to train highly qualified specialists who, based on their knowledge, are capable of active creative work in the field of modern micro- and nanoelectronics and nanotechnology both in research institutions and in industrial production.
Objective
- The formation of their knowledge, skills, and abilities that ensure the ability to independent creative professional activity in the rapidly developing knowledge-intensive industries of engineering and technology.
Learning outcome: knowledge and understanding
- Knowledge of the physical basics of the operation of electronic devices of various types
Learning outcome: applying knowledge and understanding
- Knowledge of the technology for creating structures with reduced dimensions, including both traditional microelectronics methods and specific technological processes developed in recent years to obtain low-dimensional structures
Learning outcome: formation of judgments
- The ability to choose an electronic device that is most suitable for solving a specific scientific and technical problem
Learning outcome: communicative abilities
- The ability to perform quantitative calculations of the parameters of low-dimensional systems based on the mathematical apparatus of quantum mechanics
Learning outcome: learning skills or learning abilities
- Ability to use new physical phenomena to create new materials, components, instruments and devices of micro and nanoelectronics ability to use new physical phenomena to create new materials, components, instruments and devices of micro and nanoelectronics