Nature11d
Germanium Quantum Dots on Silicon Substrates
Germanium quantum dots (QDs) on silicon substrates are a significant area of research in the field of optoelectronics and nanotechnology. These nanostructures have unique optical and electronic ...
Nature11d
Quantum Dots and Epitaxial Growth in Germanium-Silicon Systems
Epitaxial growth is a method used to create thin films of materials on a substrate, which is crucial for the development of quantum dots in germanium-silicon systems. Recent research has focused ...
Hosted on MSN6mon
Novel Technique Maps Phonon Movement in Nanomaterials
Focusing on stacked silicon germanium alloy quantum dots separated by silicon, the researchers discovered that strain within the nanostructure caused the quantum dots' vibrations to soften ...
Study Reveals Integration of 1,024 Silicon Quantum Dots into On-Chip Electronics, All Functioning at Low Temperatures
Researchers successfully combined 1,024 silicon quantum dots with cryogenic on-chip electronics, paving the way for scalable ...
siliconsemiconductor8d
IQE and Quintessent partner on Quantum Dot for AI
Partners establish commercial quantum dot epitaxial wafer supply chain for AI optical interconnects.
AZoQuantum on MSN13d
New Chip to Solve Quantum Computing Roadblocks
The European Commission is investing in a groundbreaking quantum chip that combines light and electronics for the first time, ...
Nanowerk10mon
Heterojunctions: Enhancing Optoelectronic Devices through Nanoscale Engineering
For example, strained silicon/germanium heterojunctions have been utilized ... Heterojunction-based LEDs, such as quantum well and quantum dot LEDs, offer superior color purity, brightness, and ...
Phys.org on MSN12d
Study demonstrates integration of 1,024 silicon quantum dots with on-chip electronics all operating at low temperatures
Quantum computers have the potential of outperforming classical computers on some optimization tasks. Yet scaling up quantum ...