Accession Number : ADA538729


Title :   Low Power Band to Band Tunnel Transistors


Descriptive Note : Doctoral thesis


Corporate Author : CALIFORNIA UNIV BERKELEY DEPT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE


Personal Author(s) : Bowonder, Anupama


Full Text : http://www.dtic.mil/get-tr-doc/pdf?AD=ADA538729


Report Date : 15 DEC 2010


Pagination or Media Count : 106


Abstract : As scaling continues, the number of transistors per unit area and power density are both on the rise. A reduction in Vdd is highly desirable to reduce power consumption. For MOSFETs however, this would mean scaling the threshold voltage to maintain performance and thereby enhancing the off current and static power consumption since MOSFETs are limited to a swing of 60mV/decade at best. A low voltage transistor that allows Vdd scaling to 0.5V and below is highly desirable. In this thesis, gate induced band-to-band tunneling transistors are explored as a low voltage alternative because of their potential to achieve lower than 60mV/decade turn-off. Since BTBT is strongly dependant on the band gap of the semiconductor, moving from Silicon to Germanium to lower band gap materials can help scale Vdd. Biaxially strained Si1-xGex based heterostructures can provide ultra low effective band gaps. Strain is used to engineer complimentary Si1-xGex heterostructures with low effective band gap for both N and P type transistors. The design and fabrication of heterostructure based tunnel transistors is explored to help scale Vdd to 0.5V and below. Dopant engineering techniques to enhance the electric field are also explored both with simulations and experiments.


Descriptors :   *TRANSISTORS , ELECTRIC FIELDS , HETEROGENEITY , N TYPE SEMICONDUCTORS , BAND GAPS , P TYPE SEMICONDUCTORS , MOSFET SEMICONDUCTORS , THESES , LOW VOLTAGE


Subject Categories : ELECTRICAL AND ELECTRONIC EQUIPMENT


Distribution Statement : APPROVED FOR PUBLIC RELEASE