Your search keyword '"Kuchmizhak, Aleksandr"' showing total 5 results

1. Laser-Printed Plasmonic Metasurface Supporting Bound States in the Continuum Enhances and Shapes Infrared Spontaneous Emission of Coupled HgTe Quantum Dots

Author

Sergeeva, Kseniia A., Pavlov, Dmitrii V., Seredin, Albert A., Mitsai, Eugeny V., Sergeev, Aleksandr A., Modin, Evgeny B., Sokolova, Anastasiia V., Lau, Tsz Chun, Baryshnikova, Kseniia V., Petrov, Mihail I., Kershaw, Stephen V., Kuchmizhak, Aleksandr A., Wong, Kam Sing, Rogach, Andrey L., Sergeeva, Kseniia A., Pavlov, Dmitrii V., Seredin, Albert A., Mitsai, Eugeny V., Sergeev, Aleksandr A., Modin, Evgeny B., Sokolova, Anastasiia V., Lau, Tsz Chun, Baryshnikova, Kseniia V., Petrov, Mihail I., Kershaw, Stephen V., Kuchmizhak, Aleksandr A., Wong, Kam Sing, and Rogach, Andrey L.

Abstract

In order to advance the development of quantum emitter-based devices, it is essential to enhance light-matter interactions through coupling between semiconductor quantum dots with high quality factor resonators. Here, efficient tuning of the emission properties of HgTe quantum dots in the infrared spectral region is demonstrated by coupling them to a plasmonic metasurface that supports bound states in the continuum. The plasmonic metasurface, composed of an array of gold nanobumps, is fabricated using single-step direct laser printing, opening up new opportunities for creating exclusive 3D plasmonic nanostructures and advanced photonic devices in the infrared region. A 12-fold enhancement of the photoluminescence in the 900–1700 nm range is observed under optimal coupling conditions. By tuning the geometry of the plasmonic arrays, controllable shaping of the emission spectra is achieved, selectively enhancing specific wavelength ranges across the emission spectrum. The observed enhancement and shaping of the emission are attributed to the Purcell effect, as corroborated by systematic measurements of radiative lifetimes and optical simulations based on the numerical solution of Maxwell's equations. Moreover, coupling of the HgTe photoluminescence to high quality factor modes of the metasurface improves emission directivity, concentrating output within an ≈20° angle. © 2023 Wiley-VCH GmbH.

Published

2023

2. Direct laser printing of high-resolution physically unclonable anti-counterfeit labels

Author

Lapidas, Vasily, Zhizhchenko, Alexey, Pustovalov, Eugeny, Storozhenko, Dmitry, Kuchmizhak, Aleksandr, Lapidas, Vasily, Zhizhchenko, Alexey, Pustovalov, Eugeny, Storozhenko, Dmitry, and Kuchmizhak, Aleksandr

Abstract

Security labels combining facile structural color readout and physically unclonable one-way function (PUF) approach provide promising strategy for fighting against forgery of marketable products. Here, we justify direct femtosecond-laser printing, a simple and scalable technology, for fabrication of high-resolution (12500 dots per inch) and durable PUF labels with a substantially large encoding capacity of 10$^{895}$ and a simple spectroscopy-free optical signal readout. The proposed tags are comprised of laser-printed plasmonic nanostructures exhibiting unique light scattering behavior and unclonable 3D geometry. Uncontrollable stochastic variation of the nanostructure geometry in the process of their spot-by-spot printing results in random and broadband variation of the scattering color of each laser printed "pixel", making laser-printed patterns unique and suitable for PUF labeling., Comment: 5 pages, 3 figures

Published

2022

3. Laser-printed self-organized bimetallic nanotextures for multiwavelength surface enhanced photoluminescence

Author

Pavlov, D. V., Kuchmizhak, Aleksandr Andreevich, Pavlov, D. V., and Kuchmizhak, Aleksandr Andreevich

4. Non-invasive temperature-feedback SERS with all-dielectric resonant nanostructures

Author

Mitsai, E. V., Kuchmizhak, Aleksandr Andreevich, Mitsai, E. V., and Kuchmizhak, Aleksandr Andreevich

5. Designing spiral-shape beams to tailor chirality of laser-printed nanoneedles

Author

Syubaev, Sergey Alekcandrovich, Kuchmizhak, Aleksandr Andreevich, Porfirev, A. P., Syubaev, Sergey Alekcandrovich, Kuchmizhak, Aleksandr Andreevich, and Porfirev, A. P.