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On-chip Photonic Crystal Cavity Integrated with Thermal Graphene Source
P. 899–903.
Photonic crystal cavity based optical filter for integration of graphene wide band thermal optical source with nanophotonic circuits was studied. Parameters of the filter were optimized to obtain transmission maximum close to 1550 nm wavelength with a rather narrow bandwidth and high transmittance value.
In book
Hangzhou: IEEE Xplore, 2022.
Fominykh N., Fedosov I. S., Kryzhanovskaya N. et al., Письма в Журнал технической физики 2025 Т. 51 № 19 С. 11–14
The directed emission output of microdisk lasers through a coupled optical waveguide fabricated from the same heterostructure has been investigated. Disks with diameters of 30 and 40 µm containing an active region based on InGaAs/GaAs quantum dots were studied. To reduce absorption losses in the waveguide, a forward bias was applied to it. At a ...
Added: August 27, 2025
Mehrabi-Kalajahi S., Ostovari Moghaddam A., Akbarpour S. et al., ACS Applied Energy Materials 2025 Vol. 8 No. 12 P. 8524–8531
High-entropy materials provide an interesting route for developing highly active electrocatalysts owing to their tunability and numerous active sites; however, their performance can be further improved with interfacial engineering in nanocomposite catalysts. In this study, (CoFeMnCuNiCr)3O4 high-entropy oxide (HEO) nanoparticles were synthesized and grafted onto graphene (HEO–G), graphene oxide (HEO–GO), and reduced graphene oxide (HEO–rGO) supports. ...
Added: June 16, 2025
Kolymagin D. A., Prokhodtsov A. I., Chubich D. A. et al., Bulletin of the Russian Academy of Sciences: Physics 2024 Vol. 88 No. 12 P. 2016–2021
Photonic integrated circuits with improved optical input are used to obtain high-performance data transmission and processing systems. Transmitance spectra are studied for 3D microstructures fabricated via two-photon polymerization for inputting radiation in the range of 1480 to 1640 nm into photonic integrated circuits. Results were compared to transmittance of diffraction gratings. ...
Added: February 19, 2025
An P. P., V. V. Kovalyuk, Y. G. Gladush et al., Applied Physics Letters 2024 Vol. 125 No. 20 Article 201101
The rapid development of photonic integrated circuits (PICs) and their applications in various fields of science and technology requires the creation of easy-to-manufacture high-speed integrated detectors. In this work, we fabricated and studied planar waveguide-integrated bolometers based on a thin film of single-walled carbon nanotubes (SWCNTs) on the silicon nitride platform. This bolometer showed good ...
Added: November 11, 2024
A. N. Lyubchak, K. V. Shein, G.N. Goltsman et al., St. Petersburg Polytechnical University Journal: Physics and Mathematics 2024 Vol. 17 No. 3.2 P. 116–120
Terahertz (THz) integrated circuits is a promising platform to create low cost and efficient components for high-speed sixth-generation (6G) communication networks. One of the key components for this application is detectors and mixers integrated on THz silicon waveguide. Graphene, due to its unique and tunable properties such as zero band gap, high charge mobility and low electronic heat capacity, has ...
Added: November 5, 2024
Bondareva P., Shein K., Lyubchak A. N. et al., St. Petersburg Polytechnical University Journal: Physics and Mathematics 2024 Vol. 17 No. 3.2 P. 46–51
Graphene, due to its record low electron heat capacity and weak electron-phonon coupling at low temperatures, is considered as a promising material for creating terahertz hot electron bolometers. The main challenge to the development of such devices is the weak dependence of graphene resistance on temperature. Here we demonstrate measurement system based on Johnson noise ...
Added: November 5, 2024
K.V. Shein, A.N. Lyubchak, Zharkova E. et al., St. Petersburg Polytechnical University Journal: Physics and Mathematics 2024 Vol. 17 No. 3.2 P. 241–245
Photonic integrated circuits (PIC) represent a promising platform for applications in the field of quantum technologies, such as quantum computing and cryptography. One of the key components for these applications is detectors based on thin superconducting films. Nevertheless, fabricating thin detectors atop a waveguide utilizing conventional superconducting materials acquired through magnetron sputtering presents a multifaceted ...
Added: November 5, 2024
Kravtsov M., Shilov A. L., Yang Y. et al., Nature Nanotechnology 2025 Vol. 20 No. 1 P. 51–56
Light incident upon materials can induce changes in their electrical conductivity, a phenomenon referred to as photoresistance. In semiconductors, the photoresistance is negative, as light-induced promotion of electrons across the bandgap enhances the number of charge carriers participating in transport. In superconductors and normal metals, the photoresistance is positive because of the destruction of the ...
Added: October 9, 2024
Svintsov D., Alymov G., I. Gayduchenko et al., , in: The 5-th International Conference: Terahertz and microwave radiation: generation, detection and applications (TERA-2023), 27 February — 2 March 2023, Moscow, Russia. Abstract Book.: M.: Our Style, 2023. P. 143–143.
Tunnel field-effect transistors (TFETs) are considered as main candidates for future low-power electronic circuits. The origin of low-power switching is the steep dependence of source-drain interband tunneling current on the overlap between conduction and valence bands [1]. Despite numerous applications of TFETs in logic circuits, it was not realized that strong (nonlinear) sensitivity of tunnel ...
Added: February 12, 2024
P. I. Bondareva, K. V. Shein, A. N. Lyubchak et al., St. Petersburg Polytechnical University Journal: Physics and Mathematics 2023 Vol. 16 No. 3.1 P. 128–132
In this paper we investigate a novel approach to inventing graphene-based sub-ter- ahertz bolometers using noise thermometry. Graphene is a unique material for detecting radi- ation in the sub-terahertz (0.1–1 THz) and terahertz (1–10 THz) ranges due to its record low electron heat capacity and weak electron-phonon coupling. This results in sufficient heating of graphene ...
Added: February 5, 2024
A. Kuzin, Panda K., Chernyshev V. et al., Applied Physics Letters 2024 Vol. 124 No. 6 Article 063701
Photonic biosensors based on photonic integrated circuits (PICs) and microfluidic channels (MFCs) have become the subject of intensive research for point-of-care (POC) device applications. In the presented work, we demonstrate the possibility of identifying the complex refractive index (RI) of analyzed liquids through the optimization of the geometry configuration of MFCs under PICs by experimental ...
Added: December 1, 2023
A. Kuzin, Chernyshev V., V. Kovalyuk et al., Applied Physics Letters 2023 Vol. 123 No. 19 Article 193702
Today, the search for disease biomarkers and techniques for their detection is one of the most important focuses in modern healthcare. Extracellular vesicles (EVs) are known to be related to the pathogenesis of various illnesses, such as cancer, neurodegenerative disease, and cardiovascular disease. Specific EV detection and potential control of their amount in biological fluids ...
Added: November 8, 2023
Shakhovoy R., Marius P., Sharoglazova V. et al., Physical Review A: Atomic, Molecular, and Optical physics 2023 Vol. 107 No. 1 Article 012616
Gain-switched lasers are in demand in numerous quantum applications, particularly in systems of quantum key distribution and in various optical quantum random number generators. The reason for this popularity is natural phase randomization between gain-switched laser pulses. The idea of such randomization has become so familiar that most authors use it without regard to the ...
Added: January 30, 2023
Hangzhou: IEEE Xplore, 2022.
2022 PhotonIcs & Electromagnetics Research Symposium (PIERS), Hangzhou, China, 25–27 April 2022 ...
Added: January 30, 2023
Aleksei Kuzin, Chernyshev V., Kovalyuk V. et al., Optics Letters 2022 Vol. 47 No. 9 P. 2358–2361
Today, a lab-on-a-chip is one of the most promising ways to create sensor devices for gas and liquid analysis for environmental monitoring, early diagnosis, and treatment effectiveness assessment. On the one hand, this requires a large number of measurements and, on the other hand, involves minimum consumption of the test analytes. Combi- nation of highly ...
Added: January 30, 2023
Lazarenko P., Kovalyuk V., An P. et al., APL Materials 2021 Vol. 9 No. 12 Article 121104
We have studied transmission spectra of a silicon nitride O-ring resonator with a Ge2Sb2Te5 (GST) thin-film cover. We have performed numerical simulations of the transmission, absorption, reflection, and scattering for the GST cells of various thicknesses and lengths and have also measured transmission spectra O-ring resonators for GST cells of various length and phase states. ...
Added: January 30, 2023
Aleksei Kuzin, Fradkin I., Chernyshev V. et al., Nanomaterials 2023 Vol. 13 No. 1 Article 81
Spectrometers are widely used tools in chemical and biological sensing, material analysis, and light source characterization. However, an important characteristic of traditional spectrometers for biomedical applications is stable operation. It can be achieved due to high fabrication control during the development and stabilization of temperature and polarization of optical radiation dur- ing measurements. Temperature and ...
Added: January 9, 2023
TRONEV A., PARFENOV M., Bozhko S. et al., Optical Materials Express 2022 Vol. 12 No. 10 P. 4072–4087
Local laser oxidation of a thin titanium film is considered as a means of a precise adjustment of losses and effective refractive index of dielectric optical waveguides. A fine phase control of an operating point and extinction ratio enhancement up to 57 dB were demonstrated using an integrated optical Ti:LiNbO3 Mach-Zehnder modulator. This technique only ...
Added: October 25, 2022
Terahertz detector utilizing a SiO2/Graphene/SiO2 sandwich suspended at the feed of a planar antenna
I Belikov, Rybin M., A Prikhodko et al., Journal of Physics: Conference Series 2021 Vol. 2086 No. 1 Article 012048
We report on the fabrication of a terahertz detector utilizing a SiO2/graphene/SiO2 sandwich suspended at the planar antenna feed. This design of the detector aims to enhance its sensitivity via weakening of the heat sink between graphene's phonons and those of the substrate. We achieve complete suspension of the sandwich only in case of a low ...
Added: May 18, 2022