One of the most widely used introductory books on semiconductor materials, physics, devices and technology, Solid State Electronic Devices aims to: 1) develop basic semiconductor physics concepts, so students can better understand current and future devices; and 2) provide a sound understanding of current semiconductor devices and technology, so that their applications to electronic and optoelectronic circuits and systems can be appreciated. Students are brought to a level of understanding that will enable them to read much of the current literature on new devices and applications.

Ben Streetman Solid State Electronic Devices 23.pdf

The aim of this course is to make the student aware of the fundamental physical principles of semiconductor devices, and how modeling of devices is done. The participants of the course obtain the basic understanding, which is required for working with integrated circuits and optoelectronics. This implies that the student should:be familiar with fundamental physical principles which govern performance of semiconductor devicesbe able to use basic equations describing device performanceunderstand and be able to explain in a well structured and logical concise way characteristics, operation and limitations of semiconductor devicesunderstand and be able to explain main technological approaches for device fabricationdevelop basic tools with which they can later apply for learning newly developed devices and applications

Basic semiconductor physics. Operation and modeling of pn-junctions, optoelectronic devices, bipolar transistors, field-effect transistors, and integrated circuits. An overview of processing of semiconductor devices and integrated circuits is given. Introduction into modern semiconductor technologies, such as nanotechnology and spin electronics. 2ff7e9595c