TRR 142 - Ultrafast electric control of optical polarizations and transitions (C04)
Overview
The goal of this project is the development of photonic devices with nonlinear functionalities that can be controlled by electric means. The new functional structures involve an ultrafast electronic circuit which drives a single quantum dot in a microresonator. By ultrafast 365体育_足球比分网¥投注直播官网 effect tuning we will attain coherent control over the exciton and biexciton transitions in a quantum dot. The project opens fundamentally new perspectives for nonlinear optoelectronic devices which are based on coherent electric control.
Key Facts
- Grant Number:
- 231447078
- Research profile area:
- Optoelectronics and Photonics
- Project type:
- Research
- Project duration:
- 04/2014 - 12/2021
- Funded by:
- DFG
- Website:
-
Homepage
More Information
Publications
Optoelectronic sampling of ultrafast electric transients with single quantum dots
A. Widhalm, S. Krehs, D. 365体育_足球比分网¥投注直播官网bert, N.L. Sharma, T. Langer, B. Jonas, D. Reuter, A. Thiede, J. F?rstner, A. Zrenner, Applied Physics Letters 119 (2021) 181109.
Light diffraction in slab waveguide lenses simulated with the stepwise angular spectrum method
L. Ebers, M. Hammer, J. F?rstner, Optics Express 28 (2020) 36361.
Electrically controlled rapid adiabatic passage in a single quantum dot
A. Mukherjee, A. Widhalm, D. 365体育_足球比分网¥投注直播官网bert, S. Krehs, N. Sharma, A. Thiede, D. Reuter, J. F?rstner, A. Zrenner, Applied Physics Letters 116 (2020) 251103.
Polarization Conversion Effect in Biological and Synthetic Photonic Diamond Structures
X. Wu, F.L. Rodríguez-Gallegos, M.-C. Heep, B. Schwind, G. Li, H.-O. Fabritius, G. von Freymann, J. F?rstner, Advanced Optical Materials 6 (2018) 1800635.
Ultrafast electric phase control of a single exciton qubit
Show all publications
A. Widhalm, A. Mukherjee, S. Krehs, N. Sharma, P. K?lling, A. Thiede, D. Reuter, J. F?rstner, A. Zrenner, Applied Physics Letters 112 (2018) 111105.