Researchers at QuTech have successfully created 2D Majorana particles, paving the way for more stable and efficient qubits, which could significantly enhance the future of quantum computers. Additionally, a quantum processor was used to settle a long-standing debate in physics, revealing initial signs that a 1D Heisenberg spin chain at infinite temperature diverges from the KPZ universality class. Furthermore, a liquid-like spreading of metal atoms on a topological material can generate a superconductor, potentially benefiting quantum computing. Researchers at ETH are exploring alternative ways to manipulate quantum states, and infrared illumination has been uncovered as a new path to quantum computing.
Physicists Uncover New Path to #Quantum #Computing: Infrared Illumination https://t.co/2UOaHxe8gH
A liquid-like spreading of metal atoms on a topological material can generate a superconductor—one that might benefit quantum computing. Read https://t.co/VmsdKnmJh1 @PhysicsMagazine https://t.co/uZM7cYejyR @yanyu_jia @tiancheng_song @SchoopLab @FangYuan_Chem @RatnadwipSingha https://t.co/VxEii5SMV1
A quantum processor was used to settle a long-standing debate in physics, revealing initial signs that a 1D Heisenberg spin chain at infinite temperature diverges from the KPZ universality class. Learn more → https://t.co/xmrS0DkgGN https://t.co/bL2dNkpscJ
Good news in Quantum Computing! Researchers at QuTech have successfully created 2D Majorana particles, paving the way for more stable and efficient qubits. This breakthrough could significantly enhance the future of quantum computers. https://t.co/rd79M8rfWl
Quantum computing gets attention for its potential to break encryption, but it might also make special operators’ communications more secure than ever, @lalaurenista reports. https://t.co/8UJE8nYSgS
An alternative way to manipulate quantum states @ETH_en @sciencemagazine https://t.co/cJPXnU8CKV