양자 컴퓨팅
Physicists confirm quantum mechanics in 73-qubit system
An international team of physicists has developed a quantum lie detector using Bell's test to verify genuine quantum behavior in large systems. By testing up to 73 qubits, they demonstrated correlations impossible in classical physics. This breakthrough affirms that quantum computers exhibit authentic quantum effects at scale.
Scientists make germanium superconducting for the first time
Researchers have achieved superconductivity in germanium, a common semiconductor, by precisely doping it with gallium atoms. This breakthrough, detailed in a new study, could enable more efficient quantum devices and cryogenic electronics. The material conducts electricity with zero resistance at 3.5 Kelvin.
Tech Trends Highlight AI and Quantum Advances
AI에 의해 보고됨
Emerging technologies in September 2025 focus on AI advancements, quantum computing systems, and sustainable practices, as reported by multiple sources. These developments promise significant impacts on various industries, from computing to environmental conservation. Experts emphasize the need for ethical implementation amid rapid progress.
New Quantum Breakthrough Announced
AI에 의해 보고됨
Researchers have revealed a quantum computing advancement that could impact teleportation and data processing. The breakthrough involves improved qubit stability.
LG전자, KT가 양자 직접 통신 기술 공동 연구 추진
LG전자가 KT와 첨단 보안 통신 기술 공동 연구를 위해 양해각서(MOU)를 체결했다고 29일 발표했다. 양사는 양자 직접 통신 기술에 대한 심층 연구를 진행하며, 초보안 네트워크 수요 증가에 대응한다. 이 기술은 AI 기반 서비스의 데이터 보안을 강화할 전망이다.
New method reduces errors in quantum computing
Scientists have developed a novel technique that significantly cuts error rates in quantum computers. The breakthrough, detailed in a recent study, could accelerate the path to practical quantum technology. Led by researchers at a leading university, the method addresses a key challenge in the field.
2025 Nobel Prize in Physics awarded for macroscopic quantum tunneling
The 2025 Nobel Prize in Physics has been awarded to John Clarke, Michel H. Devoret, and John M. Martinis for their discovery of macroscopic quantum tunneling and energy quantization in an electrical circuit. Their work, conducted in the 1980s at the University of California, Berkeley, demonstrated quantum effects on a macroscale using a Josephson junction. The laureates will share $1.1 million, with the ceremony set for December 10, 2025, in Stockholm.