Unlocking the Quantum Enigma: The Secret World of Strange Metals!
The world of quantum physics has long been intrigued by the enigmatic properties of strange metals.
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A groundbreaking study by Patel et al. has now shed light on this mystery.
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Strange metals transport electrical charge at low temperatures, but not in the same way as ordinary metals.
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"At low temperatures, these metals exhibit a T-linear resistivity due to spatially random fluctuations in their fermion-scalar Yukawa couplings," explains Aavishkar A. Patel.
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The study also revealed a T ln(1/T) specific heat and provided a rationale for the Planckian bound on the transport scattering time.
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"Our results offer a comprehensive understanding of the strange metal behavior," says Haoyu Guo.
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"Understanding strange metals is crucial for advancements in superconductivity," remarks Dr. Ilya Esterlis.
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"The introduction of disorder in the coupling constants is a game-changer," says Subir Sachdev.
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