Add to ORKGA Si-based p-i-n light emitting diode for 1.6 mum operation at room temperature has been realized, with beta-FeSi2 particles embedded in the unintentionally doped Si prepared by reactive deposition epitaxy. Room-temperature electroluminescence (EL) at 1.6 mum was observed with the diode under a forward bias current density of about 2.0 A/cm(2) and its intensity increased linearly with the current density. The temperature dependence of EL showed that luminescence was due to interband transitions in the beta-FeSi2 particles and the loss of electron confinement at p-p beta-FeSi2/Si heterojunctions follows a thermally activated process with activation energy of about 0.198 eV, the conduction band offset at beta-FeSi2/Si heterojunction. (C) 2005...
Semiconducting iron disilicide precipitates have been fabricated by ion beam synthesis in silicon. P...
In the present paper the electroluminescence of PIN diodes with either strained SiGe/Si or Ge island...
We suggest an alternative technique for electroluminescent device fabrication, based on our earlier ...
A Si-based p-i-n light emitting diode for 1.6 µm operation at room temperature has been realized, w...
The temperature dependence of electroluminescence from silicon p-i-n light-emitting diodes with a la...
Electroluminescence at an emission power of over 0.4 mW is achieved at an emission wavelength of 1.6...
In this paper, we review the detailed study of epitaxial growth of beta-FeSi2 films by reactive depo...
Si/beta-FeSi2-particles/Si structures have been fabricated by reactive deposition epitaxy for beta-F...
We have obtained room-temperature electroluminescence (EL) at approximately 1.54 mum from Er and O c...
The mechanisms of photo and electroluminescence from Er-implanted crystalline Si have been investiga...
In this thesis, a working novel silicon light emitting diode is demonstrated. Light emission in sili...
β-FeSi2/Si light emitting devices (LEDs) have been attracting great interest since the first success...
We have fabricated p-Si/beta-FeSi(2) film/n-Si double-heterstructure (DH) light-emitting diodes (LED...
We have epitaxially grown Si/beta-FeSi2/Si (SFS) structures with beta-FeSi2 particles on Si(001), an...
A metal-oxide-silicon (MOS) tunneling diode is utilized to embed beta-FeSi 2 precipitates and give s...
Semiconducting iron disilicide precipitates have been fabricated by ion beam synthesis in silicon. P...
In the present paper the electroluminescence of PIN diodes with either strained SiGe/Si or Ge island...
We suggest an alternative technique for electroluminescent device fabrication, based on our earlier ...
A Si-based p-i-n light emitting diode for 1.6 µm operation at room temperature has been realized, w...
The temperature dependence of electroluminescence from silicon p-i-n light-emitting diodes with a la...
Electroluminescence at an emission power of over 0.4 mW is achieved at an emission wavelength of 1.6...
In this paper, we review the detailed study of epitaxial growth of beta-FeSi2 films by reactive depo...
Si/beta-FeSi2-particles/Si structures have been fabricated by reactive deposition epitaxy for beta-F...
We have obtained room-temperature electroluminescence (EL) at approximately 1.54 mum from Er and O c...
The mechanisms of photo and electroluminescence from Er-implanted crystalline Si have been investiga...
In this thesis, a working novel silicon light emitting diode is demonstrated. Light emission in sili...
β-FeSi2/Si light emitting devices (LEDs) have been attracting great interest since the first success...
We have fabricated p-Si/beta-FeSi(2) film/n-Si double-heterstructure (DH) light-emitting diodes (LED...
We have epitaxially grown Si/beta-FeSi2/Si (SFS) structures with beta-FeSi2 particles on Si(001), an...
A metal-oxide-silicon (MOS) tunneling diode is utilized to embed beta-FeSi 2 precipitates and give s...
Semiconducting iron disilicide precipitates have been fabricated by ion beam synthesis in silicon. P...
In the present paper the electroluminescence of PIN diodes with either strained SiGe/Si or Ge island...
We suggest an alternative technique for electroluminescent device fabrication, based on our earlier ...