Physics of semiconductor and electronic devices - Class Schedule (2014)



1.    Moore's Law, the limitations of current technology:
       the recent past and the possibilities of tomorrow ( Mátyás Aradi, Sept. 18 - pdf )

2.    Metal-semiconductor and semiconductor-semiconductor (pn) interfaces:
       properties of a p-n junction; operation, diode law and types ( Z.D., Sept. 25 )

3.    Bipolar transistors:
       structure and function; ideal transistor model ( Bence Márkus, Oct. 2 - pdf )

4.    FETs and other unipolar transitions:
       structure and function; MOS capacitor and transistor, CMOS FET ( Z.D., Oct. 9 )

5.    Semiconductor-based data storage, memories:
       ROM-s; RAM-s; cache; FLASH; pendrive; SSD ( Zoltán Kórádi, Nov. 6 - pdf )

6.    Structure of circuits:
       gates; logics; registers; ALU; CPU; SOIC ( Tamás Kolonits, Nov. 13 - pdf )

7.    Optoelectronic devices:
       photodiode, solar panel, CCD ( Philipp Buchsteiner, Nov. 20 - pdf )

8.    Semiconductor materials, fabrication of devices:
       manufacturing, researching, photolithography, Talbot effect ( Marcell Gajdics, Nov. 27 - pdf )

9.    Quantum mechanical devices:
       quantum dots and it's applications ( Z.D., Dec. 4 )

10.  Physical Nobel prize 2014 - The blue LED
       history of LED research, development of technology ( Z.D., Dec. 11 )


Last modification - 01/04/2015