Add to ORKGHigh-quality Ge epilayer on Si(1 0 0) substrate with an inserted low-temperature Ge seed layer and a thin Si0.77Ge0.23 layer was grown by ultrahigh vacuum chemical vapor deposition. The epitaxial Ge layer with surface root-mean-square roughness of 0.7 nm and threading dislocation density of 5 x 10(5) cm(-2) was obtained. The influence of low temperature Ge seed layer on the quality of Ge epilayer was investigated. We demonstrated that the relatively higher temperature (350 degrees C) for the growth of Ge seed layer significantly improved the crystal quality and the Hall hole mobility of the Ge epilayer. (C) 2008 Elsevier B.V. All rights reserved
Epitaxial growth of Ge on Si has been investigated by two techniques: vacuum deposition and chemical...
The growth of germanium at low temperature by ultrahigh vacuum chemical vapor deposition on Si(001) ...
A new alternative method to grow the relaxed Ge0.24Si0.76 layer with a reduced dislocation density b...
High-quality Ge epilayer on Si(1 0 0) substrate with an inserted low-temperature Ge seed layer and a...
A study of Ge epilayer growth directly on a Si(001) substrate is presented, following the two temper...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
High-quality and thick Ge epitaxial films are grown on Si substrates utilizing the low-temperature(L...
Epitaxial growth of Ge on Si has been investigated by two techniques: vacuum deposition and chemical...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
This work presents the growth of high-quality Ge epilayers on Si (001) substrates using a reduced pr...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
This work presents the growth of high-quality Ge epilayers on Si (001) substrates using a reduced pr...
This work presents the growth of high-quality Ge epilayers on Si (001) substrates using a reduced pr...
Epitaxial growth of Ge on Si has been investigated by two techniques: vacuum deposition and chemical...
The growth of germanium at low temperature by ultrahigh vacuum chemical vapor deposition on Si(001) ...
A new alternative method to grow the relaxed Ge0.24Si0.76 layer with a reduced dislocation density b...
High-quality Ge epilayer on Si(1 0 0) substrate with an inserted low-temperature Ge seed layer and a...
A study of Ge epilayer growth directly on a Si(001) substrate is presented, following the two temper...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
High-quality and thick Ge epitaxial films are grown on Si substrates utilizing the low-temperature(L...
Epitaxial growth of Ge on Si has been investigated by two techniques: vacuum deposition and chemical...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
This work presents the growth of high-quality Ge epilayers on Si (001) substrates using a reduced pr...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
This work presents the growth of high-quality Ge epilayers on Si (001) substrates using a reduced pr...
This work presents the growth of high-quality Ge epilayers on Si (001) substrates using a reduced pr...
Epitaxial growth of Ge on Si has been investigated by two techniques: vacuum deposition and chemical...
The growth of germanium at low temperature by ultrahigh vacuum chemical vapor deposition on Si(001) ...
A new alternative method to grow the relaxed Ge0.24Si0.76 layer with a reduced dislocation density b...