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English(EN) Researchers create programmable material that can steer heat and remember its state without power — breakthrough could eventually aid AI chip cooling and silicon photonics

可编程材料引导热量,断电后仍保持状态

研究人员开发出一种新型可编程材料,能够引导热量流动并在断电后保持其配置。这项结合了磁光材料和相变材料的突破,克服了控制热辐射的局限性。这项创新在AI芯片、硅光子学和能源系统的先进热管理方面具有潜力。 AI

影响 可能实现更高性能AI芯片更高效的散热,从而提高计算密度和性能。

排序理由 学术研究论文,详细介绍了一种具有潜在应用价值的新材料。[lever_c_降级自研究:ic=1 ai=0.7]

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可编程材料引导热量,断电后仍保持状态

报道来源 [1]

  1. Tom's Hardware TIER_1 English(EN) · Etiido Uko ·

    Researchers create programmable material that can steer heat and remember its state without power — breakthrough could eventually aid AI chip cooling and silicon photonics

    Researchers created a programmable thermal material that steers heat and retains its state without power, a breakthrough that could benefit AI chips, silicon photonics, and infrared devices.