Daniel Peykov scite author profile

Using morphological and optical simulations of 1D tantalum photonic crystals at 1200K, surface diffusion was determined to gradually reduce the efficiency of selective emitters. This was attributed to shifting resonance peaks and declining emissivity caused by changes to the cavity dimensions and the aperture width. Decreasing the structure's curvature through larger periods and smaller cavity widths, as well as generating smoother transitions in curvature through the introduction of rounded cavities, was found to alleviate this degradation. An optimized structure, that shows both high efficiency selective emissivity and resistance to surface diffusion, was presented.

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Comparison of parameter choice methods for the analytical inversion of ARXPS data

Peykov

Paynter

2014

Journal of Electron Spectroscopy and Related Phenomena

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Matrix-based approach for the inversion of ARXPS data

Peykov

Paynter

2012

Journal of Electron Spectroscopy and Related Phenomena

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On the choice of tuning parameters for use with Robust GCV, Modified GCV and the Discrepancy Principle in the inversion of ARXPS data

Peykov

Paynter

2014

Journal of Electron Spectroscopy and Related Phenomena

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Daniel Peykov

Evaluation of strain rate sensitivity by constant load nanoindentation

Effects of surface diffusion on high temperature selective emitters

Comparison of parameter choice methods for the analytical inversion of ARXPS data

Matrix-based approach for the inversion of ARXPS data

On the choice of tuning parameters for use with Robust GCV, Modified GCV and the Discrepancy Principle in the inversion of ARXPS data

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