Georgia State Discovery Provides Insight Into Behavior of Electrons
Georgia State Discovery Provides Insight Into Behavior of Electrons
Their studies have resulted in a discovery recently published in the journal Communications Physics. The team has delved into the enigmatic world of fractional quantum Hall effects (FQHE), uncovering novel, unexpected phenomena when these systems are probed in new ways and pushed beyond their usual boundaries.
Bruker Announces Successful Installation of 1.2 GHz Avance NMR Spectrometer at the Korea Basic Science Institute
Bruker Announces Successful Installation of 1.2 GHz Avance NMR Spectrometer at the Korea Basic Science Institute
Bruker Corporation is pleased to announce the successful installation and acceptance of a 1.2 GHz Avance Nuclear Magnetic Resonance (NMR) spectrometer at the Korea Basic Science Institute ( KBSI ), just in time before the start of the ICMRBS 2024 conference in Korea. As the first 1.2 GHz NMR system in the Asia-Pacific region, it sets a new benchmark for molecular, cell biology and disease research by ultra-high field NMR.
Toward a Quantum Electron Microscope: A Compact Pulse Hollow Cone Hybrid TEM/SEM by CityUHK to Revolutionise Electron Microscopy
Toward a Quantum Electron Microscope: A Compact Pulse Hollow Cone Hybrid TEM/SEM by CityUHK to Revolutionise Electron Microscopy
A research team from City University of Hong Kong (CityUHK) is working on a new quantum electron microscope (QEM) to eliminate interaction between the electron beam and sample. At this stage, the team is using partial key components of QEM to design a compact hybrid transmission and scanning electron microscope that can operate at room temperature, ushering in a new era for electron microscopes. The CityUHK team plans to manufacture and commercialise this groundbreaking innovation within three years.
New Research Programme to Strengthen Cybersecurity in a Post-Quantum World
New Research Programme to Strengthen Cybersecurity in a Post-Quantum World
NTU is setting up a new research programme to strengthen cybersecurity in a post-quantum world, where advancements in quantum computing pose a looming threat to conventional encryption algorithms.
SandboxAQ Partners with U.S. Army DEVCOM to Support AI-Enabled Materials Discovery to Advance Armored Vehicle Alloys and Battery Design
SandboxAQ Partners with U.S. Army DEVCOM to Support AI-Enabled Materials Discovery to Advance Armored Vehicle Alloys and Battery Design
SandboxAQ announced today the signing of two agreements with the U.S. Army: one with the Command, Control, Communications, Computers, Cyber, Intelligence, Surveillance and Reconnaissance Center (C5ISR Center) and the second with the Combat Capabilities Development Command’s (DEVCOM) Ground Vehicle Systems Center (GVSC).
Supercomputer and Quantum Computer in Harmony
Supercomputer and Quantum Computer in Harmony
Working together, the University of Innsbruck and the spin-off AQT have integrated a quantum computer into a high-performance computing (HPC) environment for the first time in Austria. This hybrid infrastructure of supercomputer and quantum computer can now be used to solve complex problems in various fields such as chemistry, materials science or optimization.
Scientists From Japan and South Korea Have Developed a New Method to Control Quantum Bound States in Novel Superconducting Devices
Recently, researchers from Pohang University of Science and Technology in South Korea and the National Institute for Materials Science in Japan collaborated successfully to control the quantum mechanical properties of Andreev bound states in bilayer graphene-based Josephson junctions using gate voltage. In this study, the research team used gate voltage to control the quadratic energy dispersion of bilayer graphene as well as the superconducting coherence length in real-time.
QUANTUMWIRE.COM
New Method Developed to Control Quantum Bound States in Superconducting Device
New Method Developed to Control Quantum Bound States in Superconducting Device
Professors Gil-Ho Lee and Gil Young Cho from the Department of Physics at Pohang University of Science and Technology (POSTECH) in South Korea in collaboration with Dr. Kenji Watanabe and Dr. Takashi Taniguchi from National Institute for Materials Science (NIMS) in Japan have successfully controlled the quantum mechanical properties of Andreev bound states in bilayer graphene-based Josephson junctions using gate voltage. Their research has been published in “Physical Review Letters,” the international journal in the field of physics.
Microsoft Has Introduced Two New Capabilities for Azure Quantum Elements: Generative Chemistry and Accelerated DFT
Microsoft recently announced the launch of two new purpose-built capabilities for Azure Quantum Elements: Generative Chemistry and Accelerated Density Functional Theory (DFT), aiming to further increase the productivity and accessibility of chemistry and materials science research. Generative Chemistry can scientists discover novel, synthesizable, and useful molecules quickly. Accelerated DFT offers substantial increases in speed compared to other density functional theory codes.
QUANTUMWIRE.COM
QpiAI Closes $6.5 Mill Pre-Series A Funding Led by Yournest and SIDBI Venture Capital
QpiAI Closes $6.5 Mill Pre-Series A Funding Led by Yournest and SIDBI Venture Capital
QpiAI, a leader in quantum computing and generative AI, announced its maiden external funding of $6.5 million to build Quantum computing and Generative AI products and platforms.
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September 12, 2024
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