TFFY35	Semiconductor Physics, ECTS-points /HALVLEDARFYSIK/ Advancement level: D
	Aim: The development within electronics is currently very rapid and new devices are continuously introduced. The prerequisite for this rapid development is the improvement of the semiconductor material. This course if of fundamental character and basic physical properties of the semiconductor material are presented. The properties of three-dimensional (3D) bulk material constitutes a major part of the course, but also recent developments within low-dimensional semiconductor structures, such as heterostructures, superlattices and quantum wells, are an essential part of this course. Also various modern techniques for growing and doping of semiconductor materials are presented. Furthermore, different ways to electrically and optically charaterize semiconductors will be demonstrated at the three laborations, which are included in this course. Prerequisites: TFFY 57 Solid State Physics TFFY70 Material Physics Supplementary courses: TFFY34 Semiconductor Technology TFFY96 Solid State Electronics Course organization: Bandstructure, Phonons, Defects, Impurities, Transport Properties, Hall Effect, Scattering Processes, Optical Properties, Recombination Mechanisms, Excitons, Auger-Processes, Characterisation Methods (Optical, Electrical, Magnetoresonance Methods), External Field Perturbations (Electrical field, Magnetic field), Heterostructures, Super-lattices, Quantum Wells, Quantum Hall Effect, Stark Effect, Growth Methods (Epitaxial Methods, Doping Methods) Course content: Bandstructure, Phonons, Defects, Impurities, Transport Properties, Hall Effect, Scattering Processes, Optical Properties, Recombination Mechanisms, Excitons, Auger-Processes, Characterisation Methods (Optical, Electrical, Magnetic Methods), External Field Perturbations (Electrical field, Magnetic field), Heterostructures, Super-lattices, Quantum Wells, Quantum Hall Effect, Stark Effect, Growth Methods (Epitaxial Methods, Doping Methods), Quantum- wires and-dots. Laborations: 1. Electrical Characterisation (Hall, DLTS etc) (1/2 day) 2. Luminescence measurements (full day) 3. Optical Characterisation using Fourier Transform Spectroscopy (full day) Course literature: Physical Properties of Semiconductors (C. M. Wolfe, N. Holonyak, G.E. Stillman) together with separate articles (to be provided during the course)
TEN1	A Written examination
LAB1	Laboratory work

Course language is Swedish.