Theory and modelling of non-reciprocal sub-wavelength struktures and plasmonic waveguide systems.
Project goals
The project is aimed at the development of methods of theoretical analysis and numerical modelling of linear, nonlinear and nonreciprocal optical effects in dielectric as well as plasmonic guided-wave structures and photonic crystals. We also plan to develop theoretical models. The main purpose of this effort is to contribute to general physical understanding of new relevant phenomena in such systems from the point of view of their potential technical applications.
Keywords
photonic structuremagnetooptic photonic crystalplasmonicsnon-reciprocity
Public support
Provider
Ministry of Education, Youth and Sports
Programme
COST
Call for proposals
COST 7 (SMSM2009OC4)
Main participants
—
Contest type
VS - Public tender
Contract ID
1147/2010-32
Alternative language
Project name in Czech
Teorie a modelování nereciprokých subvlnových struktur a plazmonických vlnovodných systémů
Annotation in Czech
Vývoj teoretických a numerických metod pro popis nových vlastností nereciprokých vlnovodných a periodických struktur. Pomocí teoretických modelů a numerických simulací chceme přispět k poznání klíčových mechanizmů souvisejícich se zkoumanými jevy.
Scientific branches
R&D category
ZV - Basic research
CEP classification - main branch
JA - Electronics and optoelectronics
CEP - secondary branch
BM - Solid-state physics and magnetism
CEP - another secondary branch
BH - Optics, masers and lasers
10302 - Condensed matter physics (including formerly solid state physics, supercond.)
10306 - Optics (including laser optics and quantum optics)
20201 - Electrical and electronic engineering
Completed project evaluation
Provider evaluation
U - Uspěl podle zadání (s publikovanými či patentovanými výsledky atd.)
Project results evaluation
We have shown that the structure formed by metal/2D magnetooptic photonic crystal interface allows to achieve sufficiently wide one-way frequency range in the presence of relatively small magnetic field ~10 mT. Fourier analysis of the EM energy density in the presence of external time-dependent magnetic field reveals the existence of new phenomena which can be harnessed e.g. for light trapping.
Solution timeline
Realization period - beginning
Apr 1, 2009
Realization period - end
Dec 31, 2011
Project status
U - Finished project
Latest support payment
Mar 2, 2011
Data delivery to CEP
Confidentiality
S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů
Data delivery code
CEP12-MSM-OC-U/01:1
Data delivery date
Jul 12, 2012
Finance
Total approved costs
4,635 thou. CZK
Public financial support
1,260 thou. CZK
Other public sources
3,375 thou. CZK
Non public and foreign sources
0 thou. CZK
Basic information
Recognised costs
4 635 CZK thou.
Public support
1 260 CZK thou.
27%
Provider
Ministry of Education, Youth and Sports
CEP
JA - Electronics and optoelectronics
Solution period
01. 04. 2009 - 31. 12. 2011