D. N. Lobanov scite author profile

We report photoluminescence (PL) studies of Ge(Si) self-assembled islands embedded into a tensile-strained Si layer grown on smooth relaxed Si0.75Ge0.25∕Si(001) buffer layers subjected to chemical-mechanical polishing. The intense PL from Ge(Si) islands embedded into a strained Si layer compared to the PL from islands grown on unstrained Si(001) is associated with efficient confinement of electrons in a strained Si layer on the heterojunction with islands. The observed dependence of the island PL peak position on thickness of strained Si layer confirms the validity of the model for real-space indirect optical transition between electrons confined in the strained Si layer, and holes localized in islands.

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Microscopic and optical investigation of Ge nanoislands on silicon substrates

Krasilnik

Lytvyn

Lobanov

et al. 2002

Nanotechnology

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Growth and photoluminescence of self-assembled islands obtained during the deposition of Ge on a strained SiGe layer

et al. 2005

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Towards the indium nitride laser: obtaining infrared stimulated emission from planar monocrystalline InN structures

Andreev

Kudryavtsev

Yablonskiy

et al. 2018

Sci Rep

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The observation of a stimulated emission at interband transitions in monocrystalline n-InN layers under optical pumping is reported. The spectral position of the stimulated emission changes over a range of 1.64 to 1.9 μm with variations of free electron concentration in InN layers from 2·1019 cm−3 to 3·1017 cm−3. The main necessary conditions for achieving the stimulated emission from epitaxial InN layers are defined. In the best quality samples, a threshold excitation power density is obtained to be as low as 400 W/cm2 at T = 8 K and the stimulated emission is observed up to 215 K. In this way, the feasibility of InN-based lasers as well as the potentials of crystalline indium nitride as a promising photonic material are demonstrated.

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SiGe nanostructures with self-assembled islands for Si-based optoelectronics

Krasilnik

Новиков

Lobanov

et al. 2010

Semicond. Sci. Technol.

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The effect of structure parameters on the electroluminescence and photoconductivity of multilayer structures with self-assembled Ge(Si)/Si(0 0 1) islands has been studied. The highest intensity of the room-temperature electroluminescence in the wavelength range of 1.3-1.55 μm has been observed for the islands grown at 600 • C. The same diode structures with Ge(Si)/Si(0 0 1) islands have demonstrated room-temperature photoconductivity signals in the wavelength range of 1.3-1.55 μm. The observed overlap of the electroluminescence and photoconductivity spectra obtained for the same structures with Ge(Si) islands makes these structures a promising material for the fabrication of a Si-based optocoupler. Less degradation after neutron irradiation has been observed for the electroluminescence and photoconductivity signals from multilayer structures with Ge(Si) self-assembled islands in comparison with bulk silicon structures. This result is associated with more effective confinement of charge carriers in the multilayer structures with Ge(Si) islands.

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D. N. Lobanov

Photoluminescence of Ge(Si) self-assembled islands embedded in a tensile-strained Si layer

Microscopic and optical investigation of Ge nanoislands on silicon substrates

Growth and photoluminescence of self-assembled islands obtained during the deposition of Ge on a strained SiGe layer

Towards the indium nitride laser: obtaining infrared stimulated emission from planar monocrystalline InN structures

SiGe nanostructures with self-assembled islands for Si-based optoelectronics

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