Using Photonic Band Gap in Triangular SiC Structures for Efficient Quantum Nanophotonic HW


A new technical paper titled "Utilizing photonic band gap in triangular silicon carbide structures for efficient quantum nanophotonic hardware" was published by researchers at UC Davis. Abstract: "Silicon carbide is among the leading quantum information material platforms due to the long spin coherence and single-photon emitting properties of its color center defects. Applications of silico... » read more

System Bits: Nov. 29


Qubit device fabbed in standard CMOS In a major step toward commercialization of quantum computing, Leti, an institute of CEA Tech, along with Inac, a fundamental research division of CEA, and the University of Grenoble Alpes have achieved the first demonstration of a quantum-dot-based spin qubit using a device fabricated on a 300-mm CMOS fab line. Maud Vinet, Leti’s advanced CMOS manager... » read more