R. Herrera scite author profile

Metal-Oxide-Semiconductor structures with semitransparent Au top electrode and containing Si nanocrystals in the gate dielectric are fabricated and studied. The structures can be charged negatively or positively by injecting or extracting electrons from the top electrode. Illumination with 395-400 nm, 10.4 mW UV light source causes discharge of previously charged structures with rate which varies between 2 mV/s and 12 mV/s. The discharge rate depends on the sign of the trapped charge, as well on the internal electric field in the gate dielectric.

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Application of Metal-Oxide-Semiconductor structures containing silicon nanocrystals in radiation dosimetry

Nesheva

Nedev

Curiel

et al. 2014

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This article makes a brief review of the most important results obtained by the authors and their collaborators during the last four years in the field of the development of metal-insulator-silicon structures with dielectric film containing silicon nanocrystals, which are suitable for applications in radiation dosimetry. The preparation of SiOx films is briefly discussed and the annealing conditions used for the growth of silicon nanocrystals are presented. A two-step annealing process for preparation of metal-oxide-semiconductor structures with three-layer gate dielectrics is described. Electron Microscopy investigations prove the Si nanocrystals growth, reveal the crystal spatial distribution in the gate dielectric and provide evidences for the formation of a top SiO 2 layer when applying the two-step annealing. Two types of MOS structures with three region gate dielectrics were fabricated and characterized by high frequency capacitance/conductancevoltage (C/G-V) measurements. The effect of gamma and ultraviolet radiation on the flatband voltage of preliminary charged metal-oxide-semiconductor structures is investigated and discussed.

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Fading characteristics of different thermoluminescent dosimeters

Burgkhardt¹,

Herrera²,

Piesch³

1976

Nuclear Instruments and Methods

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UV Dosimeters Based on Metal-Oxide-Semiconductor Structures Containing Si Nanocrystals

Arias¹,

Nedev²,

Nesheva³

et al. 2015

Sen Lett

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R. Herrera

Long-channel silicon-on-insulator MOSFET theory

MOS Structures Containing Si Nanocrystals for Applications in UV Dosimeters

Application of Metal-Oxide-Semiconductor structures containing silicon nanocrystals in radiation dosimetry

Fading characteristics of different thermoluminescent dosimeters

UV Dosimeters Based on Metal-Oxide-Semiconductor Structures Containing Si Nanocrystals

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