Two-stage model of nanocone formation on a surface of elementary semiconductors by laser radiation

Abstract: In this work, we study the mechanism of nanocone formation on a surface of elementary semiconductors by Nd:YAG laser radiation. Our previous investigations of SiGe and CdZnTe solid solutions have shown that nanocone formation mechanism is characterized by two stages. The first stage is characterized by formation of heterostructure, for example, Ge/Si heterostructure from SiGe solid solutions, and the second stage is characterized by formation of nanocones by mechanical plastic deformation of the compressed Ge … Show more

“…The possibility of forming quantum cones by Nd:YAG laser radiation on the surface of semiconductors such as Si, Ge, GaAs crystals and CdZnTe, SiGe solid solutions has been shown [2,3]. A two-stage mechanism of quantum cone formation has been proposed [4]. The first stage is generation and redistribution of point defects (impurity atoms and intrinsic point defectsvacancies and self-interstitials) in the temperature gradient field, the so-called thermogradient effect [5].…”

Homo- and Hetero-Structure Formation in Semiconductors by Laser Radiation: First Stage of Quantum Cones Formation

“…The possibility of forming quantum cones by Nd:YAG laser radiation on the surface of semiconductors such as Si, Ge, GaAs crystals and CdZnTe, SiGe solid solutions has been shown [2,3]. A two-stage mechanism of quantum cone formation has been proposed [4]. The first stage is generation and redistribution of point defects (impurity atoms and intrinsic point defectsvacancies and self-interstitials) in the temperature gradient field, the so-called thermogradient effect [5].…”

Homo- and Hetero-Structure Formation in Semiconductors by Laser Radiation: First Stage of Quantum Cones Formation

Electron and hole separation in Ge nanocones formed on Si1−xGex solid solution by Nd:YAG laser radiation

The effect of UV Nd:YAG laser radiation on the optical and electrical properties of hydrothermal ZnO crystal