М.В. Майтама scite author profile

М.В. Майтама

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Плазмонные Фотопроводящие Антенны Для Систем Терагерцовой Импульсной Спектроскопии И Визуализации-=sup=-*-=/Sup=-

Лаврухин¹,

Галиев²,

Павлов³

et al. 2019

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We propose a terahertz (THz) plasmonic photoconductive antenna (PCA) with a record height of its metal electrodes of h = 100 nm and a high aspect ratio of h / p = 0.5 ( p is the period of the plasmonic grating) that can be used as a source is THz pulsed spectroscopic and imaging systems. We experimentally demonstrate that the power of the THz radiation generated by the proposed plasmonic PCA is two orders of magnitude higher than that of an equivalent ordinary PCA without a plasmonic grating. Current–voltage measurements of the thus developed plasmonic PCA under femtosecond laser excitation show that the photocurrent of the PCA increases 15-fold, up to i _p ≈ 1.2 mA. To reduce the leakage currents of the PCA, we propose a fabrication technology that is based on the etching of windows in a thin Si_3N_4 passivation dielectric layer deposited on the photoconductor surface, which makes it possible to reduce the dark current to i _d ≈ 5 μA.

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Активная копланарная линия передач на основе двухбарьерных GaAs/AlAs резонансно-туннельных диодов

Соболев¹,

Павлов²,

Майтама³

et al. 2023

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Double-barrier GaAs/AlAs resonant tunneling diodes (RTDs) have become the promising elements for the development of sub-mm and THz emitters. We report on the fabrication of the RTD samples that were characterized via RF-reflectometry to determine the parameters of its equivalent circuit. By using numerical simulation we show that the coplanar transmission line with the RTD under study provides an amplification up to 8 GHz.

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