Maksim G. Verkholetov scite author profile

The article is concerned with a detailed switching delay effect exhibited by avalanche S-diodes-superfast GaAs closing switches doped with deep Fe centers. The current and voltage time dependences are simulated in a simplified generator. The dynamic electric field and charge profiles in the structures are calculated. This article describes an impact that Fe capture cross sections of free charge carriers have on delayed switching. The simulation results show that delayed switching is associated with deep center recharging in a double injection mode due to three different processes. There are two different delay mechanisms to be herewith distinguished. A delay effect is experimentally viewed to control the dynamic switching voltage (and the avalanche breakdown voltage) using constant voltage adjustment capability enabled by a triggering circuit supply. The authors demonstrate the way it is possible to adjust the amplitude of current nanosecond pulses in the range of 20-45 A through a lidar transmitter circuit with a semiconductor laser and nonoptimized S-diode. The findings are consistent with the results of numerical simulation.

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Charge Carrier Transport and Deep Levels Recharge in Avalanche S-Diodes Based on GaAs

Prudaev

Verkholetov

Koroleva³

et al. 2018

Tech. Phys. Lett.

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Транспорт носителей заряда и перезарядка глубоких уровней в структурах для лавинных S-диодов на основе GaAs

Prudaev¹,

Verkholetov²,

Королёва³

et al. 2018

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Carrier transport and deep-level recharging in semiconductor avalanche S-diode structures have been investigated. Gallium-arsenide n ^+–π–ν– n structures with the diffusion distribution of deep iron acceptors have been studied. It has been found by solving the continuity and Poisson equations with the use of a commercial software that the electron injection affects the avalanche breakdown voltage and the spacecharge region broadens due to capture of avalanche holes on negative iron ions in the π-region. It is demonstrated by comparing the results of numerical calculation with the experimental data that the S -shaped I–V characteristic of the diffusion avalanche S -diodes cannot be explained within the previously proposed mechanism of capture of avalanche holes on the deep iron levels.

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Dielectric properties investigation of a compound based on atomic layer deposited multi-layer structure

Mumlyakov¹,

Шибалов²,

Trofimov

et al. 2021

Journal of Alloys and Compounds

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