Tag: Spintronics
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Standalone Spin-Wave Chip Pioneers Magnet-Free Tunable Tech for Telecoms
Revolutionizing Telecoms with Magnet-Free Spin-Wave Technology Researchers at the Politecnico di Milano have unveiled a landmark achievement in spintronics: the first integrated, fully tunable device based on spin waves that operates without external magnets. This breakthrough could accelerate the next generation of telecommunications, pushing well beyond current 5G and 6G concepts by harnessing the intrinsic…
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Standalone Spin-Wave Chip Without External Magnets Poised to Transform Future Telecom
Revealing a New Era in Telecommunication Technology The Politecnico di Milano has unveiled a groundbreaking advancement in spintronics: the first integrated and fully tunable device based on spin waves that operates without external magnets. This achievement marks a significant step toward more compact, energy-efficient, and scalable components for the next generation of telecommunications, potentially extending…
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Chiral Perovskite Films for Next-Gen Optoelectronics
Unveiling a new path for chiral materials in optoelectronics Chiral perovskite films are emerging as a key platform for next‑generation optoelectronics. Researchers at the Centre for Nano and Soft Matter Sciences (CeNS) in Bengaluru have demonstrated a practical way to control how these films crystallise, a breakthrough that could unlock high‑performance devices such as circularly…
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Unlocking Chirality: Controlled Crystallisation of Chiral Perovskite Films for Next-Gen Optoelectronics
Overview: A Leap in Chiral Perovskite Film Technology Chiral perovskite films are emerging as a transformative platform for optoelectronics. Scientists at the Centre for Nano and Soft Matter Sciences (CeNS) in Bengaluru have unlocked a practical, scalable approach to control the crystallisation of chiral hybrid materials. These advances hold promise for high-performance circularly polarised light…
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Chiral Perovskite Films for Next-Gen Optoelectronics: A Practical Crystallisation Guide
Revealing a practical path to high-performance chiral perovskites Researchers at the Centre for Nano and Soft Matter Sciences (CeNS) in Bengaluru have unveiled a practical strategy to control the crystallisation of chiral halide perovskite films. The breakthrough addresses a long-standing hurdle: how to grow phase-pure, orientation-controlled chiral films that deliver reliable performance in advanced optoelectronic…
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Rethinking Physics: A New Twist on the Anomalous Hall Effect
Introduction to the Anomalous Hall Effect The Anomalous Hall Effect (AHE) has fascinated physicists since its discovery over 140 years ago. Traditionally associated with magnetic materials, the AHE describes a phenomenon where an electric current develops a transverse voltage in the presence of a magnetic field. Recent groundbreaking research from scientists in Japan has uncovered…