Add to ORKGSymmetric quantum dots (QDs) on (111)-oriented surfaces are promising candidates for generating polarization-entangled photons due to their low excitonic fine structure splitting(FSS). However, (111) QDs are difficult to grow. The conventional use of compressive strain to drive QD self-assembly fails to form 3D nanostructures on (111) surfaces. Instead, we demonstrate that (111) QDs self-assemble under tensile strain by growing GaAs QDs on an InP(111)A substrate. Tensile GaAs self-assembly produces a low density of QDs with a symmetric triangular morphology. Coherent, tensile QDs are observed without dislocations, and the QDs luminescence at room temperature. Single QD measurements reveal low FSS with a median value of 7.6 μeV, due to the h...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The self-assembly of epitaxial quantum dots on (001) surfaces, driven by compressive strain, is a wi...
The self-assembly of epitaxial quantum dots on (001) surfaces, driven by compressive strain, is a wi...
Symmetric quantum dots (QDs) on (111)-oriented surfaces are promising candidates for generating pola...
C.D.Y. acknowledges support from the Department of Energy Office of Science Graduate Fellowship Prog...
Symmetric quantum dots (QDs) on (111)-oriented surfaces are promising candidates for generating pola...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
III-V self-assembled quantum dots (QDs) and quantum dashes (Q-dashes) grown by epitaxy have numerous...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The self-assembly of epitaxial quantum dots on (001) surfaces, driven by compressive strain, is a wi...
The self-assembly of epitaxial quantum dots on (001) surfaces, driven by compressive strain, is a wi...
Symmetric quantum dots (QDs) on (111)-oriented surfaces are promising candidates for generating pola...
C.D.Y. acknowledges support from the Department of Energy Office of Science Graduate Fellowship Prog...
Symmetric quantum dots (QDs) on (111)-oriented surfaces are promising candidates for generating pola...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
III-V self-assembled quantum dots (QDs) and quantum dashes (Q-dashes) grown by epitaxy have numerous...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
The authors report on a comprehensive study of the growth of coherently strained GaAs quantum dots (...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The use of molecular beam epitaxy (MBE) to create quantum dots (QDs) embedded in solid-state semicon...
The self-assembly of epitaxial quantum dots on (001) surfaces, driven by compressive strain, is a wi...
The self-assembly of epitaxial quantum dots on (001) surfaces, driven by compressive strain, is a wi...