News and events

Creative master class for young students by FMN Laboratory team

In the article, we demonstrate the optical medium for surface plasmon-polariton wave (SPP) propagation with ultra low losses corresponding to the theoretically limited values. The unique element of the optical medium is an atomically-flat single-crystalline silver thin film that provides extremely low losses. The SPP excited on the surface of such thin films (λ = 780 nm) is characterized by a SPP propagation length equal to 200 µm, which is twice longer than previously reported experimental results and corresponds to theoretically limited values for silver films.

“State-of-the-art plasmonic crystals for molecules fluorescence detection”.

FMN engineers took the first place in the competition for young scientists at the International Forum "Biotechnology: State and Development Prospects of 2019"

FMN Laboratory Director named one of the most promising young scientists from Moscow.

“Silver-based plasmonics: golden material platform and application challenges”.

“Highly Reflective Mirror Based on Noble Metal 2D Babinet Metasurface”.

“Wood’s anomaly for plasmonic biosensor based on 1D magnetooptical nanostructure”.

“Fabricating thin films with colloidal quantum dots on planar substrates using polymethyl methacrylate”

In the article "Toward a theoretically limited SPP propagation length above two hundred microns on an ultra-smooth silver surface", we demonstrate the optical medium for surface plasmon-polariton wave (SPP) propagation with ultra low losses corresponding to the theoretically limited values.

Report on "Plasmonic magneto-optical one-dimensional nanostructure: Wood anomaly and Faraday rotation for biosensorics”.

Report "Fabrication array of reproducible submicron Josephson Junction"

"High-quality plasmonic sensors based on thin structured metal films".

“Interfering surface and localized plasmon: Tuning the Wood anomaly for Biosensing”.

“Study of the effect of ultrasound on the deposition of myoglobin from solutions on active SERS-substrates”

Unique results presented in a new article in NANO Letters. In the publication, we demonstrate ultrabright single-photon emission from photostable nitrogen-vacancy (NV) centers in nanodiamonds coupled to plasmonic nanocavities made of low-loss single-crystalline silver.

Report and publication on the topic “Ultrabright Room-Temperature Emission from Single Plasmon-Enhanced Nitrogen-Vacancy Centers in Diamond”.

Report and publication on the topic “Optical spectroscopy of Ag/Py based magneto-plasmonic crystals”

Report and publication on the topic “Highly directional plasmonic nanolaser based on high performance noble metal film photonic crystal”.