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Tailored single photons: Optical control of photons as the key to new technologies

Physicists from Paderborn University have developed a novel concept for generating individual photons – tiny particles of light that make up electromagnetic radiation – with tailored properties, the controlled manipulation of which is of fundamental importance for photonic quantum technologies. The findings have now been published in scientific journal ‘Nature Communications’.

Professor Artur Zrenner, head of the ‘Nanostructure optoelectronics’ research group, explains how tailored desired states have to date posed a challenge: “Corresponding sources are usually based on light emissions from individual semiconductor quantum emitters, which generate the photons. Here, the properties of the emitted photons are defined by the fixed properties of the quantum emitter, and can therefore not be controlled with full flexibility.” To get around the problem, the scientists have developed an all-optical, non-linear method to tailor and control single photon emissions. Based on this concept, they demonstrate laser-guided energy tuning and polarisation control of photons, i.e. the light frequency and direction of oscillation of electromagnetic waves. Professor Stefan Schumacher, a physicist from Paderborn who was also involved in the study, says: “We created a laser-controlled down-conversion process from an excited state of the semiconductor quantum emitter to a virtual intermediate state, which led to single photon emission.”

Zrenner believes that the findings mark an important step towards tailored single photon emission from a photonic quantum system based on quantum optical principles. Various scientists from the Transregional Collaborative Research Centre TRR 142 ‘Tailored nonlinear photonics: From fundamental concepts to functional structures’ at Paderborn University were involved in the research. The scientists at the TRR are exploring the fundamentals of photonics and quantum optics, with the aim of breaking new ground in the field of information and communication technologies.

Original Publication
Jonas, B., Heinze, D., Schöll, E. et al. Nonlinear down-conversion in a single quantum dot. Nat Commun 13, 1387 (2022). https://doi.org/10.1038/s41467-022-28993-3

Kontakt

Artur Zrenner

Prof. Dr. Artur Zrenner

Sonderforschungsbereich Transregio 142

Zur Person
Stefan Schumacher

Prof. Dr. Stefan Schumacher

Sonderforschungsbereich Transregio 142

Zur Person
Klaus Jöns

Prof. Dr. Klaus Jöns

Institut für Photonische Quantensysteme (PhoQS)

Zur Person
Dirk Reuter

Prof. Dr. Dirk Reuter

Sonderforschungsbereich Transregio 142

Principal Investigator

Zur Person