Optimizing Epochal Evolutionary Search: Population-Size Dependent Theory
Abstract
Photoconductivity response spectra of polycrystalline Ag 0.5 InSe 2 thin films are reported. The peak and shoulders observed in the photoconductivity spectra are attributed to transitions from valence sub-bands to the conduction band. From the room-temperature spectra, the band-gap energies, spin-orbit and crystal-field parameters are determined. The temperature coefficient of the photoconductivity peak energy is 1.25 × 10 -4 eVK -1 in the temperature range 60–100 K. The sign of the temperature coefficient reverses around 100 K and the value is -1.23 × 10 -4 eVK -1 in the temperature range 100–303 K. The variations of photocurrent with applied bias voltage, illumination intensity and temperature are also studied. © 2001 Kluwer Academic Publishers
Cite
Text
van Nimwegen and Crutchfield. "Optimizing Epochal Evolutionary Search: Population-Size Dependent Theory." Machine Learning, 2001. doi:10.1023/A:1012497308906Markdown
[van Nimwegen and Crutchfield. "Optimizing Epochal Evolutionary Search: Population-Size Dependent Theory." Machine Learning, 2001.](https://mlanthology.org/mlj/2001/vannimwegen2001mlj-optimizing/) doi:10.1023/A:1012497308906BibTeX
@article{vannimwegen2001mlj-optimizing,
title = {{Optimizing Epochal Evolutionary Search: Population-Size Dependent Theory}},
author = {van Nimwegen, Erik and Crutchfield, James P.},
journal = {Machine Learning},
year = {2001},
pages = {77-114},
doi = {10.1023/A:1012497308906},
volume = {45},
url = {https://mlanthology.org/mlj/2001/vannimwegen2001mlj-optimizing/}
}