CRC 951/3: Theory of Electro-Optic and Chiral Coupling in Plasmonically Enhanced HIOS (SP B10)

At a glance

Subproject of

CRC 951/3: Hybrid Inorganic/Organic Systems for Opto-Electronics (HIOS)

Project duration

07/2019 – 06/2023

DFG classification of subject areas

Theoretical Condensed Matter Physics

Funded by

DFG Collaborative Research Centre

Project description

The goal of this project is the development of a comprehensive theoretical framework for electrically driven plasmonic nano-gap structures with sandwiched hybrid inorganic/organic systems (HIOS) and for HIOS that are chirally coupled to plasmonic nano-structures. This will be done on the semi-classical level by a combination of numerical multi-scale modelling (Maxwell equations for light coupled to tight-binding/few-level Schr?dinger equations for transition metal dichalcogenides (TMDCs)/conjugated organic molecules) and quasi-normal-mode based coupled-mode approaches including spatial dispersion and chiral coupling.

Topics

Novel materials Physikalische Chemie Materialwissenschaften Physik molekularer Systeme Festk?rperphysik Organische Chemie Photonik Oberfl?chenphysik Optik Theoretische Physik

Project head

Person
Prof. Dr. rer. nat. Kurt Busch
- Faculty of Mathematics and Natural Sciences
- Department of Physics

Cooperation partners

Cooperation partner
UniversityGermany
Free University of Berlin
Cooperation partner
Non-university research institutionGermany
Fritz Haber Institute of the Max Planck Society
Cooperation partner
Non-university research institutionGermany
Helmholtz Center for Materials and Energy
Cooperation partner
UniversityGermany
Technical University of Berlin
Cooperation partner
UniversityGermany
University of Potsdam

At a glance

Project description

Project head

Prof. Dr. rer. nat. Kurt Busch

Cooperation partners

Free University of Berlin

Fritz Haber Institute of the Max Planck Society

Helmholtz Center for Materials and Energy

Technical University of Berlin

University of Potsdam