V. L. Zerova scite author profile

Internal quantum efficiency (IQE) of a blue highbrightness InGaN/GaN LED was evaluated from the external quantum efficiency measured as a function of current at various temperatures ranged between 13 K and 440 K. Processing the data with a novel evaluation procedure based on the ABC-model, we have determined the temperature dependent IQE of the LED structure and light extraction efficiency of the LED chip. Separate evaluation of these parameters is helpful for further optimization of the heterostructure and chip designs. The data obtained enable making a guess on the temperature dependence of the radiative and Auger recombination coefficients, which may be important for identification of dominant mechanisms responsible for the efficiency droop in III-nitride LEDs. Thermal degradation of the LED performance in terms of the emission efficiency is also considered.

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Carrier dynamics and surface vibration-assisted Auger recombination in porous silicon

Zakar

Chekulaev

et al. 2018

Phys. Rev. B

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All-optical modulation in Mid-Wavelength Infrared using porous Si membranes

Park

Zakar

Zerova

et al. 2016

Sci Rep

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We demonstrate for the first time the possibility of all-optical modulation of self-standing porous Silicon (pSi) membrane in the Mid-Wavelength Infrared (MWIR) range using femtosecond pump-probe techniques. To study optical modulation, we used pulses of an 800 nm, 60 femtosecond for pump and a MWIR tunable probe in the spectral range between 3.5 and 4.4 μm. We show that pSi possesses a natural transparency window centred around 4 μm. Yet, about 55% of modulation contrast can be achieved by means of optical excitation at the pump power of 60 mW (4.8 mJ/cm2). Our analysis shows that the main mechanism of the modulation is interaction of the MWIR signal with the free charge carrier excited by the pump. The time-resolved measurements showed a sub-picosecond rise time and a recovery time of about 66 ps, which suggests a modulation speed performance of ~15 GHz. This optical modulation of pSi membrane in MWIR can be applied to a variety of applications such as thermal imaging and free space communications.

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Electron heating by a strong longitudinal electric field in quantum wells

Vorob’ev¹,

Danilov²,

Zerova³

et al. 2003

Semiconductors

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Efficiency of True-Green Light Emitting Diodes: Non-Uniformity and Temperature Effects

Titkov

Karpov²,

Yadav

et al. 2017

Materials

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External quantum efficiency of industrial-grade green InGaN light-emitting diodes (LEDs) has been measured in a wide range of operating currents at various temperatures from 13 K to 300 K. Unlike blue LEDs, the efficiency as a function of current is found to have a multi-peak character, which could not be fitted by a simple ABC-model. This observation correlated with splitting of LED emission spectra into two peaks at certain currents. The characterization data are interpreted in terms of non-uniformity of the LED active region, which is tentatively attributed to extended defects like V-pits. We suggest a new approach to evaluation of temperature-dependent light extraction and internal quantum efficiencies taking into account the active region non-uniformity. As a result, the temperature dependence of light extraction and internal quantum efficiencies have been evaluated in the temperature range mentioned above and compared with those of blue LEDs.

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V. L. Zerova

Temperature-Dependent Internal Quantum Efficiency of Blue High-Brightness Light-Emitting Diodes

Carrier dynamics and surface vibration-assisted Auger recombination in porous silicon

All-optical modulation in Mid-Wavelength Infrared using porous Si membranes

Electron heating by a strong longitudinal electric field in quantum wells

Efficiency of True-Green Light Emitting Diodes: Non-Uniformity and Temperature Effects

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