Breakthrough in Quantum Materials

Physicists at the Massachusetts Institute of Technology (MIT) have observed new signs of unconventional superconductivity in “magic-angle” graphene. By stacking layers of graphene at a specific angle, they achieved a state where electrons move without resistance under certain conditions. This discovery provides critical insight into how superconductivity might occur at higher temperatures, potentially transforming technologies from quantum computing to power transmission.

 Physics-Informed AI Accelerates Materials Discovery

Researchers at the Korea Advanced Institute of Science and Technology (KAIST) have introduced a physics-informed artificial intelligence (AI) system that integrates fundamental physical laws with machine learning models. Unlike traditional AI methods that rely heavily on large datasets, this approach uses known physical principles to predict new materials efficiently. This breakthrough could dramatically speed up the design of novel superconductors, semiconductors, and sustainable energy materials.

Hidden Patterns in Metals Challenge Manufacturing Assumptions

A recent MIT study revealed that microscopic chemical patterns can persist in metals even after conventional manufacturing processes. Scientists previously assumed these patterns would vanish during high-temperature mixing, but they found they can remain stable and influence a material’s strength, heat resistance, and radiation tolerance. Understanding these hidden structures opens new pathways for designing stronger, lighter, and more efficient alloys for aerospace and industrial use.

Quantum Tunneling Wins 2025 Nobel Prize in Physics

The 2025 Nobel Prize in Physics was awarded to John Clarke, Michel Devoret, and John Martinis for their pioneering work on quantum tunneling—a phenomenon where particles pass through barriers that classical physics says they shouldn’t. Their discoveries laid the foundation for modern quantum computing and ultra-sensitive measurement technologies. This recognition underscores how quantum mechanics continues to shape the digital age, bridging theory and real-world application.

Visit Our Website : nesin.sciencefather.com

Nominate Now: https://lnkd.in/gTcgPQEd

hashtag

#ScienceFather, hashtag, #researchawards, #shorts, #Scifax, #researchers, #labtechnicians, #conference, #awards, #professors, #teachers, #lecturers, #biologybiologiest, #physicist, #ai, #rain, #network, #coordinator, #business, #motor, #medicine, #mechanic, #finance, #bestreseracher, #bestpaper, #monry, #vision, #research, #eyes, #Environment, #GoGreen, #EarthLovers


Get Connected Here:

==================
Facebook : https://lnkd.in/gcupPDnK
Twitter : twitter.com/KayleeRowan3
Pinterest :https://lnkd.in/gK-pYkaW...
Tumblr : kayleerowan.tumblr.com
Instagram : https://lnkd.in/gJdx-96p
Linkedin : linkedin.com/in/kaylee-ro...
Blog : https://lnkd.in/gSQfVK-C...