Semiconductor Devices
I need Electrical or Electronics Engineer who is very knowledgable to these following informoation about a Semiconductor Devics (Electronic Devices).
Contents:
Introduction to semiconductor materials, fundamentals of quantum mechanics and carrier phenomena, operating principles of p-n junction diodes, metal-semiconductor contacts (Schottky diodes), and field-effect transistors (MOSFETS and JFETS). Knowledge leading to understanding of semiconductor devices such as bipolar-junction transistors, photodetectors and optoelectronic devices.
Topics:
(1). crystalline materials, cubic lattices, crystal planes, crystal directions and diamond structure.
(2). electrons in solids, quantum mechanics concepts and probability statistics
(3). particle-wave duality, energy quanta, and uncertainty principle, in relation to the states of electrons in solids
(4). thermal equilibrium, Fermi-Dirac and Boltzmann distribution functions, hybrid bond, energy band, Fermi-level, metal, semiconductor, insulator
(5). direct and indirect semiconductors, intrinsic and extrinsic (n or p-type) semiconductors and charge neutrality
(6). electron and hole concentrations at thermal equilibrium, and temperature dependence of carrier concentrations
(7). carrier drift in electric fields and the effects of temperature and doping on mobility. Conductivity. Hall effect.
(8). carrier injection, excess minority carrier generation, recombination, diffusion, and drift.
(9). step-junction model of a p-n junction, space charge regions and calculation of junction variables
(10). ideal (Shockley) diode equation for a p-n junction under forward and reversed bias
(11). Schottky barrier diode and ohmic contact
(12). metal oxide semiconductor (MOS) capacitors, charge control model
(13). characteristics and the principle of conductivity modulation of MOSFET, small signal equivalent circuit.
(14). basic mode of operation of a bipolar junction transistor (time permitting). If you think you can handle any work of those topics please contact me.