L. E. Guevara-Macías scite author profile

L. E. Guevara-Macías

5Publications

27Citation Statements Received

45Citation Statements Given

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Affiliations

Autonomous University of San Luis Potosí

Publications

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A rapid reflectance-difference spectrometer for real-time semiconductor growth monitoring with sub-second time resolution

Núñez-Olvera

Balderas‐Navarro

Ortega‐Gallegos

et al. 2012

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We report on a rapid, 32-channel reflectance-difference (RD) spectrometer with sub-second spectra acquisition times and ΔR/R sensitivity in the upper 10(-4) range. The spectrometer is based on a 50 kHz photo-elastic modulator for light polarization modulation and on a lock-in amplifier for signal harmonic analysis. Multichannel operation is allowed by multiplexing the 32 outputs of the spectrometer into the input of the lock-in amplifier. The spectrometer spans a wavelength range of 230 nm that can be tuned to cover E(1) and E(1) + Δ(1) transitions for a number of III-V semiconductors at epitaxial growth temperatures, including GaAs, InAs, AlAs, and their alloys. We present two examples of real-time measurements to demonstrate the performance of the RD spectrometer, namely, the evolution of the RD spectrum of GaAs (001) annealed at 500 °C and the time-dependent RD spectrum during the first stages of the epitaxial growth of In(0.3)Ga(0.7)As on GaAs (001) substrates.

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Real-time reflectance-difference spectroscopy of GaAs molecular beam epitaxy homoepitaxial growth

Lastras‐Martínez

Ortega‐Gallegos

Guevara-Macías

et al. 2014

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We report on real time-resolved Reflectance-difference (RD) spectroscopy of GaAs(001) grown by molecular beam epitaxy, with a time-resolution of 500 ms per spectrum within the 2.3–4.0 eV photon energy range. Through the analysis of transient RD spectra we demonstrated that RD line shapes are comprised of two components with different physical origins and determined their evolution during growth. Such components were ascribed to the subsurface strain induced by surface reconstruction and to surface stoichiometry. Results reported in this paper render RD spectroscopy as a powerful tool for the study of fundamental processes during the epitaxial growth of zincblende semiconductors.

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On the origin of reflectance-anisotropy oscillations during GaAs (0 0 1) homoepitaxy

Ortega‐Gallegos

Guevara-Macías

Ariza-Flores

et al. 2018

Applied Surface Science

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Reflectance-difference spectroscopy as a probe for semiconductor epitaxial growth monitoring

Lastras‐Martínez

Ortega‐Gallegos

Guevara-Macías

et al. 2015

Journal of Crystal Growth

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Real-time reflectance-difference spectroscopy during the epitaxial growth of InAs/GaAs/(001)

Armenta-Franco

Lastras‐Martínez

Ortega‐Gallegos

et al. 2017

Applied Surface Science

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