The Laboratory for Nano-Optics deeply regrets the tragic accident and the death of Dr. Dmitry Fedyanin. We express our sincere condolences to Dmitry's family and friends. Dmitry was a recipient of a Walter Benjamin Position of the DFG on “Pulsed electrically driven single-photon sources on diamond” and since July 2023 he has been a research associate in our group. We have been collaborating since almost a decade on the electroluminescence from color centers in diamond. We mourn the loss of a good friend and of a talented young scientist.
Group member Navid Soltani obtains the PhD in Physics. Congratulations!
Our book chapter on ultrafast single-photon detection published in Advances in Nonlinear Photonics.
Our latest work on ODMR published in Adv. Quantum Technol.
Join the celebrations for the 50th birthday of the University of Siegen. Check out the program Offene Uni.
Group member Lukas Hunold receives the student prize of the Kreis Olpe for his master thesis. Congratulations Lukas!
Our latest work on biosensing with planar antennas published in Biomed. Opt. Express
Check out the Adv. Photonics Theme Issue on Photonics Advances Quantum Science and Technologies
Our article on scalable SiV creation by ion implantation on the front cover of the December Issue of Adv. Quantum Technol.
Check out the JOSA B Feature Issue on Light-Matter Interaction in Complex Photonics Systems
Our latest work on planar antennas published in JOSA B
Our review on silicon-vacancy centers in diamond published in Frontiers in Physics
Optik und Spektroskopie der Nanostrukturen
Wo: Universität Siegen, EN Campus, Vorlesung: Raum EN D-120, Übungen: Raum EN B-030, Demo: Nano-Optik Labor
Wann: Sommersemester 2023, Vorlesung: Do.8:00 - 10:00 Uhr, Übungen und Demo: Mo. 16:00 - 18:00 Uhr
Lehrer: Mario Agio
Mitarbeiter: Amr Farrag
Literatur: Semiconductor optics (C. Klingshirn), Modern spectroscopy (J. M. Hollas), Optical Spectroscopy of Semiconductor Nanostructures (L. Ivchenko)
Thema: Vertieftes Kennenlernen der grundlegenden Phänomene der Optik und der Spektroskopie auf Nanostrukturen
Inhalte: Grundlagen von Nanostrukturen, Quantenbeschränkung in niedrigdimensionalen Systemen, Excitonenpolaritonen in Nanostrukturen und Mikrokavitäten, Resonante Elektro- und Magnetooptik, Prinzipien der optischen Spektroskopie auf Nanostrukturen, Photolumineszenz niedrigdimensionaler Systeme, Raman-Spektroskopie niedrigdimensionaler Systeme, Optische Spinorientierung und Spinrelaxationsmechanismen, Lichtstreuung in Nanostrukturen, Nichtlineare optische Phänomene
VERANSTALTUNG IN PRÄSENZ: https://www.uni-siegen.de/corona/
Klausur Termine: Neue Termine in UNISONO.
Übungsblätte und Lösungen finden Sie im Moodle Kurs "OSN": moodle.uni-siegen.de