Cho Cho Thet scite author profile

Cho Cho Thet

5Publications

19Citation Statements Received

40Citation Statements Given

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Chulalongkorn University

Publications

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The effects of relaxed InGaAs virtual substrates on the formation of self-assembled InAs quantum dots

Thet

Sanorpim

Panyakeow

et al. 2008

Semicond. Sci. Technol.

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Self-assembled InAs quantum dots (QDs) are grown on InGaAs/GaAs virtual substrates (VS) by molecular beam epitaxy. By growing InAs QDs on partially relaxed InGaAs layers with different thicknesses, hence with varying degrees of relaxation, we obtain InAs QDs which are aligned or grouped into distinct units. It was found that growths of InAs QDs on these VS result in preferential alignment along [1 1 0] and [1 −1 0] directions, and the thicker the InGaAs relaxed layer the higher the chance that QDs coalesce into distinct ensembles of QDs. We attribute the results to the difference in the underlying surface undulation due to different degrees of VS relaxation and to strain asymmetries, as confirmed by atomic force microscopy and high-resolution x-ray diffraction. A schematic description of InAs QD growth on partially relaxed InGaAs layers is given.

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Self-assembled InAs quantum dots on cross-hatch InGaAs templates: Excess growth, growth rate, capping and preferential alignment

Kanjanachuchai

Maitreeboriraks

Thet

et al. 2009

Microelectronic Engineering

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Growth of InAs quantum-dot hatches on InGaAs/GaAs cross-hatch virtual substrates

Thet

Panyakeow

Kanjanachuchai

2007

Microelectronic Engineering

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Aligned quantum dot molecules with 4 satellite dots by self-assembly

Siripitakchai¹,

Thet²,

Panyakeow³

et al. 2008

Microelectronic Engineering

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The Effects of Substrate Mounds and Pits on the Periodicity of Cross-Hatch Surface and Subsequent Formation of Quantum Dots

Thet

Kanjanachuchai

Panyakeow

2007

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Cho Cho Thet

The effects of relaxed InGaAs virtual substrates on the formation of self-assembled InAs quantum dots

Self-assembled InAs quantum dots on cross-hatch InGaAs templates: Excess growth, growth rate, capping and preferential alignment

Growth of InAs quantum-dot hatches on InGaAs/GaAs cross-hatch virtual substrates

Aligned quantum dot molecules with 4 satellite dots by self-assembly

The Effects of Substrate Mounds and Pits on the Periodicity of Cross-Hatch Surface and Subsequent Formation of Quantum Dots

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