Accomplished: World’s Fastest 2-Qubit Gate Using Method of Manipulating Two Micron-Spaced Atoms
The team, from Japan, succeeded in executing the world’s fastest two-qubit gate using a completely new method of manipulation.
August 9, 2022
The team, from Japan, succeeded in executing the world’s fastest two-qubit gate using a completely new method of manipulation.
Creating a “quantum sandbox” within government aimed at developing proof-of-concepts and testing near-term quantum applications provides a unique way to begin using today’s technology.
[R]esearchers from Yokohama National University in Japan have found a way to precisely control qubits without the previous limitations.
Amid the fierce global competition to develop the technology, the Government of Japan has formulated the Vision of Quantum Future Society in April of this year, and is accelerating R&D in that field…
Japan plans to bring into service its first homegrown quantum computer by the end of March next year and have 10 million people using the technology by 2030.
Classiq, which provides a breakthrough Quantum Algorithm Design platform, today announced that it is working with NTT DATA to implement novel credit risk analysis algorithms using quantum computers. Credit risk analysis exists to determine the creditworthiness of borrowers or vendors to quantify and limit the risk of loss to the lender.
Toshiba Shrinks Quantum Key Distribution Technology to a Semiconductor Chip Toshiba develops world’s first QKD system based on quantum transmitter, receiver and random number generator
Osaka University and Fujitsu Limited announced the establishment of the Fujitsu Quantum Computing Joint Research Division as a collaborative research division at the Center for Quantum Information and Quantum Biology (hereinafter QIQB) of Osaka University.
Scientists have generated circularly polarized light and controlled its direction without using clunky magnets or very low temperatures. The findings, by Nagoya University researchers and colleagues in Japan, and published in the journal Advanced Materials, show promise for the development of materials and device methods that can be used in optical quantum information processing.
Quantum entanglement of three spin qubits demonstrated in silicon A three-qubit entangled state has been realized in a fully controllable array of spin qubits in
