Syllabus 2009/2010 FFF160

Syllabus academic year 2009/2010
(Created 2009-08-11.)

NANOELECTRONICS

FFF160

Higher education credits: 7,5. Grading scale: TH. Level: A (Second level). Language of instruction: The course might be given in English. Compulsory for: N4nel. Optional for: E4, E4rn, F4, F4nfe, MNAV2, MSOC2, N4, N4nf. Course coordinator: Prof. Lars-Erik Wernersson, lars-erik.wernersson@ftf.lth.se, Fysik, kurslaboratoriet. Recommended prerequisits: FFF115 High Speed Devices or FFF021 Semiconductor physcs, ETI130 Digital IC-design or ESS020 Analogue Circuits. Assessment: Written exam, laboratory work, project and oral presentation. Home page: http://www-gu.ftf.lth.se.

Aim
This course deals with the applications of nanoelectronics in a number of areas and it will give knowledge about how devices may be realized and modelled for applications beyond CMOS. For instance, the nanotechnology allows for an heterogeneous materials integration of transistors which may be used to reduce the power consumption in circuit applications. The course will use knowledge in the areas of nanotechnology and circuit design. The use of nanowires and nanotubes will be discussed and different device technologies with potential to reduce the power consumption will be emphasized. Challenges in the THz region will further be discussed.

Knowledge and understanding
For a passing grade the student must

be able to understand the limits of conventional technologies
be able to describe the function for a set of nanodevices
be able to describe where to use nanodevices
be able to describe applications of nanoelectronics in communication technology

Skills and abilities
For a passing grade the student must

be able to build a model for the device
be able to design a simple circuit
be able to examine the use of various nanodevices

Judgement and approach
For a passing grade the student must

understand where nanoelectroncis may contribute to the future development
have experience of working in a research project
realize the need for compromise between technology and application

Contents
Possibilities and challenges for the Si CMOS technology at and beyond the 20 nm node. Heterogeneous materials integration: High-k dielectrics, epitaxy of materials with large lattice mis-match, nanowires. Electronics based on nanowires and nanotubes och their RF and noise characteristics. Basic limitations for swithcing energies in logics and QCAs. High frequency circuits and power consumtion in basic building blocks at high speed. The use of nanoelectronics in communication systems.

During the laborations, the students will measure and develop models for nanoelectronic devices and simulate hos these perform in simple circuits. The use of conventional tools that the engineer later will use professionally will be emphazised.

Literature
Lecture notes or K. Goser, P. Glösekötter and J. Dienstuhl: Nanoelectronics and Nanosystems, Springer 2004