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Post-Doc position in Nano-Sensing. Application deadline March 8. Please find more details in the call.


Our new PhD student Haritha received a PhD Fellowship from the House of Young Talents. Congratulations! 


High-quality plasmonic nanocones having tips with single-digit radius of curvature can be reproducibly fabricated. See related article. 


A flat optical nanoantenna capable of beaming light emitted by a single molecule has been studied theoretically and experimentally. See related article.


Our work on ultrabright single-photon source on diamond with electrical pumping at room and high temperatures published in New Journal of Physics


Diamond-based light sources will lay a foundation for quantum communications of the future, MIPT Press Release (05.08.16)


Our work on planar directional antennas has been recently presented at CLEO:QELS 2016

Nano-Optik

Where: University of Siegen, EN Campus, Lecture: Room EN D-308, Exercises: Room EN D-115 
When: Summer Term 2017, Lecture: We. 14:00 - 16:00, Exercies: Th. 08:00 - 10:00     
Lecturer: Mario Agio
Assistants: Navid Soltani, Nazanin Mosahebfard
Literature: Principles of Nano-Optics (L. Novotny and B. Hecht), Molecular Scattering and Fluorescence in Strongly-Confined Optical Fields (M. Agio)
Topics: Introduction to Nano-Optik
Contents: theoretical foundations, propagation and focusing of optical fields, resolution and localisation, nano-scale optical microscopy, optical interactions and quantum emitters, photonic crystals, surface plasmon polaritons, optical antennas, optical forces

Exercises:

Exercise 1 (Theoretical foundations - Published 20.04.17; Return 26.04.17)
Exercise 2 (Propagation and focusing of nano-optical fields I - Published 26.04.17; Return 03.05.17) 
Exercise 3  (Propagation and focusing of nano-optical fields II - Published 03.05.17; Return 10.05.17)
Exercise 4  (Propagation and focusing of nano-optical fields III - Published 18.05.17; Return 25.05.17)
Exercise 5  (Scanning near-field optical microscopy - Published 31.05.17; Return 08.06.17)
Exercise 6  (Optical interactions - Published 14.06.17; Return 21.06.17)
Exercise 7  (Quantum emitters - Published 28.06.17; Return 03.07.17)
Exercise 8  (Optical resonators - Published 31.07.17; Return 03.08.17)
Exercise 9 (Surface plasmon polaritons - Published 31.07.17; Return 03.08.17) 
 

Solutions:

Solution 1 (Theoretical foundations - Published 11.05.2017)
Solution 2 (Propagation and focusing of nano-optical fields I - Published 27.05.2017)
Solution 3   ( Propagation and focusing of nano-optical fields II  - Published 24.07.2017)
Solution 5   (Scanning near-field optical microscopy  - Published 26.08.2017)
Solution 6   (Optical interactions  - Published 26.08.2017)
Solution 7 (Quantum emitters - Published 26.08.2017)