Scalable and designer germanium quantum dots technology for energy-efficiency green computing
Technology Introduction:
We report scalable architectures of Ge quantum-dots (QDs) using CMOS processes. Our QDs feature controllability, reproducibility, and scalability in size, morphology and position, creating a novel portfolio of quantum photonic and computing devices for manufacturing. We have demonstrated the first examples of Ge-QD SHTs operation at room temperature, double-QDs qubits operation at T > 10 K, and integration of SiN waveguided Ge photonics for on-chip optical interconnect and green computing.
Industry Applicability:
"From lab to fab is the driving force of our research team.
Our CMOS integrable Ge qubits technology offers great promises for manufacturable semiconductor qubits operating at high temperatures and has gained tsmc and Metak interests.
Our Ge QD technology is recognized for paving a promising and seminal route to achieve a key goal of Si photonic integrated circuits. Armed with our Ge quantum-dot technology, we hope to pave the way for a quantum leap for Taiwan's ICT industry."
National Yang Ming Chiao Tung University (NYCU) was formed in 2021 through the merger of National Yang Ming University and National Chiao Tung University. Located in Hsinchu, Taiwan, NYCU is a leading institution specializing in technology, engineering, medicine, and social sciences. The university is known for its strengths in research and innovation, particularly in areas such as information technology, biomedicine, and artificial intelligence. NYCU fosters interdisciplinary collaboration, global partnerships, and aims to nurture professionals with strong academic foundations and leadership skills to address societal challenges and contribute to technological advancements.
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Technology maturity:Others
Exhibiting purpose:Display of scientific results
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