Add to ORKGA computer simulation technique is employed to calculate the transient photo-decay characteristics for a disordered semiconductor featuring an exponential tail of localized states plus a narrow Gaussian feature of adjustable height The resulting data are subjected to analysis via the "pre-transit" (1/I(t) t). "post-transit" (I(t) t) and "Fourier Transform" procedures It is shown that all three options can detect the presence of the Gaussian component However, even when the peak height of this becomes comparable to or less than that of the local exponential background, the pre-transit procedure consistently miscalculates its energy In contrast, the post-transit and Fourier transform procedures correctly identify this energy. and also provide...
We show that the analysis of post-transit photocurrent i(t) in a multi-trapping context to determine...
We present a general spectroscopic technique for the computation of the distribution of gap-states (...
We present a study exploring the fidelity of recovery of the density of states from transient photoc...
A computer simulation technique is employed to calculate the transient photo-decay characteristics f...
We describe a simple variation in the analysis of the transient photocurrent i(t) in semiconductors ...
An expression for the density of states (DOS) distribution in disordered semiconductors based on tra...
A new technique for direct determination of the density of electronic states (DOS) in disordered sem...
We show that the analysis of post-transit photocurrent i(t) to determine the energy distribution g(E...
The possible effects of experimental bandwidth limitation on the accuracy of the energy distribution...
This paper reviews recent work in the development and improvement of techniques to determine the ene...
We report on the effectiveness of two methods for recovering the density of electronic states from t...
We apply computer modelling to the multiple-trapping rate equations governing the time-evolution of ...
We show that the analysis of post-transit photocurrent i(t) in a multi-trapping context to determine...
We present a general spectroscopic technique for the computation of the distribution of gap-states (...
We present a study exploring the fidelity of recovery of the density of states from transient photoc...
A computer simulation technique is employed to calculate the transient photo-decay characteristics f...
We describe a simple variation in the analysis of the transient photocurrent i(t) in semiconductors ...
An expression for the density of states (DOS) distribution in disordered semiconductors based on tra...
A new technique for direct determination of the density of electronic states (DOS) in disordered sem...
We show that the analysis of post-transit photocurrent i(t) to determine the energy distribution g(E...
The possible effects of experimental bandwidth limitation on the accuracy of the energy distribution...
This paper reviews recent work in the development and improvement of techniques to determine the ene...
We report on the effectiveness of two methods for recovering the density of electronic states from t...
We apply computer modelling to the multiple-trapping rate equations governing the time-evolution of ...
We show that the analysis of post-transit photocurrent i(t) in a multi-trapping context to determine...
We present a general spectroscopic technique for the computation of the distribution of gap-states (...
We present a study exploring the fidelity of recovery of the density of states from transient photoc...