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Multimode interference splitter and Mach-Zehnder interferometer based on silicon metamaterial for subTHz range
Ch. 26.
Sergey Svyatodukh, Seliverstov S., Prokhodtsov A., Ilia Venediktov, Margaret Polyakova, Galina Chulkova, Gregory Goltsman
THz photonics range is a rapidly developing field of science with many practical applications in medicine, telecommunications, imaging, and others. From practical point of view many applications requires compact and multifunctional solutions, with a property of scalability. Such as in visible and infrared ranges photonic integrated circuits could solve given problem. In this work we are working on enlarging element base of purely silicon THz photonic integrated circuits. We consider 1x2 splitter based on multimode interferometer and its application for Mach-Zehnder interferometer on silicon integrated platform. Both devices on their own will find a huge number of applications in the THz range.
In book
CAL-TEK S.r.l., 2022.
Третьяков И. В., Худченко А. В., Рудаков К. И. et al., IEEE Transactions on Terahertz Science and Technology 2024 Vol. 15 No. 2 P. 191–199
The study of the origin and transport of water in the universe is an important part of the scientific program of the Millimetron space observatory. This will be made possible by observations conducted in single-dish mode using an onboard instrument—the high-resolution spectrometer (HRS). This instrument incorporates heterodyne array receivers operating within the range $0.5 -2.7$ ...
Added: December 23, 2025
Voronova E. I., A.A. Yelizarov, S.V. Bashkevich et al., , in: 2024 Systems of Signal Synchronization, Generating and Processing in Telecommunications (SYNCHROINFO).: IEEE, 2024. P. 1–4.
In this paper, computer modelling of the main parameters of an antenna with topology based on Koch fractal and meta-surface is performed. The simulation results of such an antenna on a 65 x 65 x 1.5 mm PCB with one and two layers of metamaterial are obtained. The influence of the metamaterial and its distance ...
Added: October 10, 2024
Skryabina V. A., S. V. Bashkevich, A. A. Yelizarov et al., , in: 2024 Systems of Signal Synchronization, Generating and Processing in Telecommunications (SYNCHROINFO).: IEEE, 2024. P. 1–5.
In this paper, computer modelling of the main parameters of an antenna with topology based on Koch fractal and meta-surface is performed. The simulation results of such an antenna on a 65 x 65 x 1.5 mm PCB with one and two layers of metamaterial are obtained. The influence of the metamaterial and its distance ...
Added: October 10, 2024
CAL-TEK S.r.l., 2022.
THz photonics range is a rapidly developing field of science with many practical applications in medicine, telecommunications, imaging, and others. From practical point of view many applications requires compact and multifunctional solutions, with a property of scalability. Such as in visible and infrared ranges photonic integrated circuits could solve given problem. In this work we ...
Added: April 15, 2024
Komrakova S., An P., Kovalyuk V. et al., Nanomaterials 2023 Vol. 13 No. 16 Article 2307
The integration of low-dimensional materials with optical waveguides presents promising opportunities for enhancing light manipulation in passive photonic circuits. In this study, we investigate the potential of aerosol-synthesized single-walled carbon nanotube (SWCNT) films for silicon nitride photonic circuits as a basis for developing integrated optics devices. Specifically, by measuring the optical response of SWCNT-covered waveguides, ...
Added: August 23, 2023
Chulkova G., Goltsman G., Svaytodukh S. S. et al., The SCImago Journal & Country Rank, 2022.
The terahertz range is a modern, actively developing scientific field with numerous applications. Similar to the optical and infrared ranges, photonic integrated circuits (PICs) have also begun to develop in the terahertz range, which have the functionality of devices in free space, but have small dimensions and high efficiency. Presently, there are many different implementations ...
Added: October 29, 2022
Mazhorin G., Moskalenko I., Besedin I. et al., Physical Review A: Atomic, Molecular, and Optical physics 2022 Vol. 105 No. 3 Article 033519
We explore experimentally a quantum metamaterial based on a superconducting chip with 25 frequency-tunable transmon qubits coupled to a common coplanar resonator. The collective bright and dark modes are probed via the microwave response, i.e., by measuring the transmission amplitude of an external microwave signal. All qubits have individual control and readout lines. Their frequency ...
Added: October 29, 2021
Shapiro D. S., Rubtsov A. N., Remizov S. V. et al., Physical Review A: Atomic, Molecular, and Optical physics 2019 Vol. 99 No. 6 Article 063821
The analysis of single-mode photon fluctuations and their counting statistics at the superradiant phase transition is presented. The study concerns the equilibrium Dicke model in a regime where the Rabi frequency, related to a coupling of the photon mode with a finite-number qubit environment, plays the role of the transition's control parameter. We use the ...
Added: October 29, 2021
Beliaev L., Takayama O., Melentiev P. N. et al., OPTO-ELECTRONIC ADVANCES 2021 Vol. 4 No. 8 Article 210031
Photoluminescence including fluorescence plays a great role in a wide variety of applications from biomedical sensing and imaging to optoelectronics. Therefore, the enhancement and control of photoluminescence has immense impact both on fundamental scientific research and aforementioned applications. Among various nanophotonic schemes and nanostructures to enhance the photoluminescence, we focus on a certain type of ...
Added: October 16, 2021
Yelizarov (Elizarov) A. A., Nazarov I., Skuridin A. et al., , in: SYNCHROINFO 2020 Systems of Signal Synchronization, Generating and Processing in Telecommunications.: IEEE, 2020. P. 1–4.
This paper presents a computer model of a FSS based on mushroom-shaped metamaterial. The model is based on the calculation of equivalent distributed inductance and distributed capacitance of the unit cell of the surface according to its geometric dimensions. The computer model is realized as the “META” program based on MathCAD ver.15 software and provides ...
Added: August 20, 2020
Tikhomirova K., Tantardini C., Sukhanova E. et al., The Journal of Physical Chemistry Letters 2020 No. 11 P. 3821–3827
NaCl is one of the simplest compounds and was thought to be well-understood, and yet, unexpected complexities related to it were uncovered at high pressure and in low-dimensional states. Here, exotic hexagonal NaCl thin films on the (110) diamond surface were crystallized in the experiment following a theoretical prediction based on ab initio evolutionary algorithm USPEX. State-of-the-art ...
Added: May 8, 2020
Ерофеев В. И., Pavlov I., ИПФ РАН, 2019.
В данной монографии развиваются теоретические основы метода структурного моделирования применительно к метаматериалам. Этот метод учитывает параметры кристаллической решетки, размеры частиц среды, их форму и константы силовых взаимодействий между ними и поэтому является наиболее подходящим для изучения влияния размерных эффектов на физико-механические свойства материала. Построенные математические модели метаматериалов позволяют не только получить представление о качественном влиянии ...
Added: January 29, 2020
Yelizarov (Elizarov) A. A., Kukharenko A. S., Skuridin A. et al., , in: METAMATERIALS' 2019. Proceedings of the 13th International Congress on Artificial Materials for Novel Wave phenomena. 16 - 21 September, Rome, Italy, ISBN 978-1-7281-0477-5.: IEEE, 2019. P. 474–476.
Reasons of appearance and possible ways of frequency dispersion control in
metamaterials based on helix structures with the help of a longitudinal propagation ground
plane and a ground plane with capacitive conductivity in azimuth direction are considered. It is
shown that existence of metamaterial constructions based on helix systems with abnormal
dispersion is a perspective way of reduction if ...
Added: November 15, 2019
IEEE, 2019.
The papers appearing in this book comprise part of the proceedings of the 13th International Congress on Artificial Materials for Novel Wave Phenomena – Metamaterials 2019. All papers have been independently peer reviewed before final submission to the conference.
They reflect the authors’ opinions and, in the interests of timely dissemination, are published as presented and ...
Added: November 15, 2019
Golovchanskiy I., Abramov N. N., Stolyarov V. S. et al., Advanced Science 2019 Vol. 6 No. 16 P. 1900435-1–1900435-8
In this work, a class of metamaterials is proposed on the basis of ferromagnet/superconductor hybridization for applications in magnonics. These metamaterials comprise of a ferromagnetic magnon medium that is coupled inductively to a superconducting periodic microstructure. Spectroscopy of magnetization dynamics in such hybrid evidences formation of areas in the medium with alternating dispersions for spin ...
Added: October 31, 2019
Kuznetsov A., Yelizarov (Elizarov) A. A., Nazarov I., , in: SYNCHROINFO 2019 Systems of Signal Synchronization, Generating and Processing in Telecommunications, IEEE Conference # 47541.: IEEE, 2019. P. 1–4.
In this paper, an overview of slow wave systems and metamaterials using in devices intended for application in the area of biomedical engineering is presented. Short characteristic of physical and engineering specifications of slow waves systems and metamaterials are listed. In addition, possible variants of upgrading an exciting engineering solution by dint of slow wave ...
Added: August 27, 2019