I. V. Rozhansky scite author profile

In this paper we argue that the quenching of external quantum efficiency (EQE) with increase of current typically observed for AlInGaN LEDs is caused by reduction of injection efficiency. It is shown as a result of numerical simulations that the current blocking AlGaN layer is inefficient at high current density due to piezoelectric field of GaN/AlGaN interface. The results of numerical simulation are in good agreement with experimental dependence of EQE on pumping. A new design of LED heterostructure is proposed, for which the EQE quenching is not expected.

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Analysis of the causes of the decrease in the electroluminescence efficiency of AlGaInN light-emitting-diode heterostructures at high pumping density

Rozhansky

Zakheim

2006

Semiconductors

100

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Millisecond Microwave Spikes: Statistical Study and Application for Plasma Diagnostics

Rozhansky

Fleishman

Huang

2008

ApJ

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We analyze a dense cluster of solar radio spikes registered at 4.5 -6 GHz by the Purple Mountain Observatory spectrometer (Nanjing, China) operating in the 4.5 -7.5 GHz range with the 5 ms temporal resolution. To handle with the data from the spectrometer we developed a new technique utilizing a nonlinear multi-Gaussian spectral fit based on chi-squared criteria to extract individual spikes from the originally recorded spectra. Applying this method to the experimental raw data we eventually identified about 3000 spikes for this event, which allows for a detailed statistical analysis. Various statistical characteristics of the spikes have been evaluated, including intensity distributions, spectral bandwidth distributions, and distribution of the spike mean frequencies. The most striking finding of this analysis is distributions of the spike bandwidth, which are remarkably asymmetric. To reveal the underlaying microphysics we explore the local trap model with the renormalized theory of spectral profile of the electron cyclotron maser (ECM) emission peak in a source with random magnetic irregularities. The distribution of the solar spikes relative bandwidth calculated within the local trap model represents an excellent fit to the experimental data. Accordingly, the developed technique may offer a new tool of studying very low levels of the magnetic turbulence in the spike sources, when the ECM mechanism of the spike cluster is confirmed.

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I. V. Rozhansky

Analysis of processes limiting quantum efficiency of AlGaInN LEDs at high pumping

Analysis of the causes of the decrease in the electroluminescence efficiency of AlGaInN light-emitting-diode heterostructures at high pumping density

Millisecond Microwave Spikes: Statistical Study and Application for Plasma Diagnostics

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