Tag: Superconductivity
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Microscopic Origin Unveiled: Orbital Magnetization in Chiral Superconductors Explained
Understanding Chiral Superconductivity and Orbital Magnetization Chiral superconductors are a rare and intriguing state of matter that not only pair electrons to form a superconducting phase but also break time-reversal symmetry. This unusual combination leads to orbital magnetization emerging from the motion of paired electrons around the lattice, a phenomenon with potential implications for quantum…
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Microscopic Origin Achieves Clear Formulation Of Orbital Magnetization In Chiral Superconductors
Unlocking Orbital Magnetization in Chiral Superconductors Chiral superconductors, a rare and intriguing class of materials, break time-reversal symmetry and offer a potential platform for new quantum technologies. Recent theoretical advances have sharpened our understanding of orbital magnetization in these systems, providing a clear formulation that links microscopic physics to measurable macroscopic effects. This article explains…
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Ultra-Cold Temperatures: A Cool Upgrade Unveiling Secrets of Nuclear Science
Chilling a Frontier: Why Ultra-Low Temperatures Matter in Nuclear Science In the pursuit of understanding the Universe at its most fundamental level, researchers rely on technologies that can reveal phenomena invisible at ordinary temperatures. Ultra-low temperatures—reaching fractions of a degree above absolute zero—are not just impressive feats of engineering. They are essential tools that enable…
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AI-Driven Breakthrough: Causal AI Sheds Light on Superconductivity Mechanism at Tohoku University and Fujitsu
AI-Powered Leap in Materials Science In a landmark collaboration, Tohoku University and Fujitsu Limited have demonstrated the power of causal artificial intelligence (AI) to uncover the fundamental mechanism behind superconductivity in a promising new functional material. By applying advanced AI models designed to tease apart cause-and-effect relationships within complex physical systems, the researchers have moved…
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Causal AI Sheds Light on Superconductivity Mechanism at Tohoku University and Fujitsu
Groundbreaking collaboration uses causal AI to probe superconductivity The collaboration between Tohoku University in Japan and Fujitsu Limited marks a notable milestone in materials science and artificial intelligence. By applying causal AI methods to experimental data and theoretical models, researchers have begun uncovering the mechanism that governs superconductivity in a promising new functional material. This…
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Tohoku University and Fujitsu Apply Causal AI to Uncover Superconductivity Mechanism in New Functional Material
Breakthrough in Superconductivity Using Causal AI In a landmark collaboration, Tohoku University and Fujitsu Limited have successfully applied causal artificial intelligence (AI) to uncover the underlying mechanism of superconductivity in a promising new functional material. The joint effort demonstrates a practical application of AI to advance fundamental science, offering a roadmap for future discoveries at…
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Unconventional Superconductivity in Magic-Angle Graphene: MIT Physicists Unveil Key Evidence
Revealing a Quantum Leap: Magic-Angle Graphene and its Superconducting Puzzle Superconductivity—where electrical resistance vanishes and electricity flows with perfect efficiency—has long promised transformative energy and information technologies. The latest findings from MIT physicists add a compelling chapter to this story, presenting key evidence for unconventional superconductivity in magic-angle twisted graphene. This discovery delves into how…
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MIT Physicists Observe Key Evidence of Unconventional Superconductivity in Magic-Angle Graphene
New Findings Highlight Unconventional Superconductivity In a landmark study, researchers at the Massachusetts Institute of Technology have reported key evidence pointing to unconventional superconductivity in magic-angle twisted bilayer graphene (MATBG). The work adds to a growing body of research showing that this engineered material hosts surprising quantum states, beyond what conventional superconductivity would predict. The…
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Three US Scientists Win 2025 Nobel Prize in Physics for Quantum Breakthroughs That Paved the Way for Modern Tech
Groundbreaking Experiments Put Quantum Mechanics in the Lab Bench The 2025 Nobel Prize in Physics was awarded to American physicists John Clarke, Michel Devoret, and John Martinis for a landmark set of experiments conducted in the mid-1980s. Their work demonstrated quantum phenomena in a system large enough to touch with our fingers and eyes, transforming…
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Three Scientists Win Physics Nobel for Work Paving the Way for Cellphones and Quantum Tech
Three Scientists Win the 2025 Nobel Prize in Physics The Nobel Prize in Physics for 2025 was awarded to three US-based researchers—John Clarke, Michel Devoret, and John Martinis—for groundbreaking experiments that demonstrated quantum physics in action within a system large enough to be observed directly. The award highlights how fundamental quantum phenomena, once thought to…