Twisted graphene reveals new superconductivity control method

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Researchers have found a way to switch superconductivity on and off in twisted bilayer graphene by adjusting its surrounding environment. The discovery challenges conventional theories and could advance energy-efficient electronics. The work was published in Nature Physics.

A team led by Chun Ning (Jeanie) Lau at The Ohio State University combined twisted bilayer graphene with strontium titanate. This setup let them tune how electrons interact and control superconductivity by changing the material's environment. The approach differs from traditional methods that focus on reducing electron repulsion inside the material itself.

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MIT terahertz microscope revealing quantum vibrations in a superconductor crystal, with scientists observing in a lab.
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MIT builds terahertz microscope to observe quantum motions in superconductors

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Physicists at MIT have developed a new microscope using terahertz light to directly observe hidden quantum vibrations inside a superconducting material for the first time. The device compresses terahertz light to overcome its wavelength limitations, revealing frictionless electron flows in BSCCO. This breakthrough could advance understanding of superconductivity and terahertz-based communications.

Researchers flip ferromagnet polarity using laser beam

Scientists at the University of Basel and ETH Zurich have reversed the polarity of a specialized ferromagnet with a focused laser beam, without heating the material. This achievement, detailed in Nature, combines electron interactions, topology, and dynamical control in a single experiment. The method hints at future light-based electronic circuits on chips.

Physicists confirm predicted magnetic vortices in atom-thin material

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Researchers at the University of Texas at Austin have observed a sequence of exotic magnetic phases in an ultrathin material, validating a theoretical model from the 1970s. The experiment involved cooling nickel phosphorus trisulfide to low temperatures, revealing swirling magnetic vortices and a subsequent ordered state. This discovery could inform future nanoscale magnetic technologies.

Science

South Korean researchers claim magnetic gene switch breakthrough amid skepticism

Science

Researchers create exotic quantum states with timed magnetic fields

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Miniature magnet rivals strength of world's largest ones

Researchers uncover new oscillation states in tiny magnetic vortices

Scientists at the Helmholtz-Zentrum Dresden-Rossendorf have discovered previously unseen Floquet states inside extremely small magnetic vortices using minimal energy from magnetic waves. This finding, which challenges prior assumptions, could link electronics, spintronics, and quantum technologies. The results appear in Science.

Huawei team creates first 2D molybdenum disulfide microprocessor

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A team from Nanjing University’s School of Integrated Circuits and Huawei has developed the first molybdenum disulfide-based multi-bit parallel microprocessor.

May 03, 2026 16:10

Japanese scientists develop spin-flip material for solar efficiency boost

April 29, 2026 08:00

Physicists discover transdimensional quantum state in carbon material

April 28, 2026 22:06

KAIST scientists visualize patchy charge density waves in quantum material

April 22, 2026 09:51

Mysterious material reveals new state of matter beyond quantum spin liquid

March 13, 2026 20:10

Chinese researchers advance gallium oxide tech for military electronics

March 05, 2026 05:08

Chemists discover bizarre half-Möbius molecular shape

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