DocumentCode
2544954
Title
Silicon nano-photonics: where the photons meet the electrons
Author
Yablonovitch, E.
Author_Institution
Dept. of Electr. Eng., California Univ., Los Angeles, CA, USA
fYear
2005
fDate
12-16 Sept. 2005
Firstpage
23
Lastpage
25
Abstract
It has become apparent that silicon technology can provide many of the requirements for nanophotonic integration, including many of the common discrete optoelectronic components. Some of these components are based on photonic crystal designs, but generally electromagnetic design becomes the main research requirement in nano-photonics. The question has always been what is the exact structure that should be fabricated? The era of purely intuitive design may be obsolete. We must now concentrate more on design software, rational design, and the numerical solution of inverse problems. There are a number of inverse algorithms, including genetic algorithms, the error-propagation method, and simulated annealing that can contribute to future progress in nanophotonic design.
Keywords
elemental semiconductors; genetic algorithms; nanotechnology; optical materials; optoelectronic devices; photonic crystals; silicon; simulated annealing; Si; electromagnetic design; error-propagation method; genetic algorithms; inverse algorithms; nanophotonic integration; optoelectronic components; photonic crystal design; silicon nanophotonics; silicon technology; simulated annealing; Algorithm design and analysis; Electrons; Genetic algorithms; Integrated optics; Inverse problems; Optical modulation; Photonic crystals; Silicon; Simulated annealing; Software design;
fLanguage
English
Publisher
ieee
Conference_Titel
Solid-State Circuits Conference, 2005. ESSCIRC 2005. Proceedings of the 31st European
Print_ISBN
0-7803-9205-1
Type
conf
DOI
10.1109/ESSCIR.2005.1541552
Filename
1541552
Link To Document