superconductivity Articles | Developments Today

Pressure induced superconductivity in hybrid Ruddlesden‒Popper La5Ni3O11 single crystals - Nature Physics (via nature.com)

Science

尖晶石晶体结构中发现异常的压力诱导超导性

科学家们记录了一种罕见而意外的超导现象，在尖晶石晶体结构中通过压力诱导产生——这一发现挑战了现有理论，为理解零电阻导电在不寻常材料中如何产生开辟了新的实验途径。

Key Takeaways

科学家在尖晶石晶体中记录了压力诱导的超导性，这违反了标准BCS理论
该机制暗示了超出简单声子介导的Cooper对配对的异常电子重组

DT Editorial AI·Mar 24, 2026·via phys.org

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A woman in a lab coat is walking behind a technical device with lots of cables and metal parts. (via miragenews.com)

Science

新型显微镜为科学家提供前所未有的动量空间视图

物理学家开发了一种显微镜，能够以前所未有的清晰度解析量子材料的动量空间结构，为揭示支撑下一代电子学的量子行为打开了新的窗口。

Key Takeaways

新显微镜以纳米级空间分辨率绘制量子动量空间结构
能够直接观察晶界和材料界面处的能带结构

DT Editorial AI·Mar 16, 2026·4 min read·via phys.org

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Light-confining device can control superconductivity — even in the dark (via nature.com)

Science

Light-Confining Cavity Controls Superconductivity Without External Fields

Columbia University physicists demonstrated for the first time that embedding a material in a built-in light-confining cavity can alter its superconducting properties without any external stimulus.

Key Takeaways

First demonstration that vacuum fluctuations in a built-in cavity can alter superconducting properties
No external light, pressure, or magnetic field required — only the cavity's electromagnetic environment

DT Editorial AI·Mar 9, 2026·5 min read·via phys.org

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High-temperature superconducting dome mapped in nickelate thin films

Innovation

Superconducting Dome Found in Nickelate Thin Films

Physicists mapped a telltale superconducting dome in nickelate crystals, a hallmark of unconventional high-temperature superconductivity previously seen only in copper-based materials.

Key Takeaways

First complete superconducting dome mapped in nickelate thin films of La3Ni2O7
Phase diagram parallels electron-doped cuprate superconductors suggesting shared physics

DT Editorial AI·Mar 9, 2026·5 min read·via interestingengineering.com

Science

Physicists have discovered a 'superconducting dome' in thin nickelate films that suggests a pathway to high-temperature superconductivity, one of the most sought-after goals in condensed matter physics.

DT Editorial AI·Mar 8, 2026·3 min read·via phys.org

Science

尖晶石晶体结构中发现异常的压力诱导超导性

Key Takeaways

科学家在尖晶石晶体中记录了压力诱导的超导性，这违反了标准BCS理论
该机制暗示了超出简单声子介导的Cooper对配对的异常电子重组

DT Editorial AI·Mar 24, 2026·via phys.org

More in Science →

Science

新型显微镜为科学家提供前所未有的动量空间视图

物理学家开发了一种显微镜，能够以前所未有的清晰度解析量子材料的动量空间结构，为揭示支撑下一代电子学的量子行为打开了新的窗口。

Key Takeaways

新显微镜以纳米级空间分辨率绘制量子动量空间结构
能够直接观察晶界和材料界面处的能带结构

DT Editorial AI·Mar 16, 2026·4 min read·via phys.org

More in Science →

Science

Light-Confining Cavity Controls Superconductivity Without External Fields

Columbia University physicists demonstrated for the first time that embedding a material in a built-in light-confining cavity can alter its superconducting properties without any external stimulus.

Key Takeaways

First demonstration that vacuum fluctuations in a built-in cavity can alter superconducting properties
No external light, pressure, or magnetic field required — only the cavity's electromagnetic environment

DT Editorial AI·Mar 9, 2026·5 min read·via phys.org

More in Science →

Innovation

Superconducting Dome Found in Nickelate Thin Films

Physicists mapped a telltale superconducting dome in nickelate crystals, a hallmark of unconventional high-temperature superconductivity previously seen only in copper-based materials.

Key Takeaways

First complete superconducting dome mapped in nickelate thin films of La3Ni2O7
Phase diagram parallels electron-doped cuprate superconductors suggesting shared physics

DT Editorial AI·Mar 9, 2026·5 min read·via interestingengineering.com

Science

DT Editorial AI·Mar 8, 2026·3 min read·via phys.org

#superconductivity

尖晶石晶体结构中发现异常的压力诱导超导性

新型显微镜为科学家提供前所未有的动量空间视图

Light-Confining Cavity Controls Superconductivity Without External Fields

Superconducting Dome Found in Nickelate Thin Films

尖晶石晶体结构中发现异常的压力诱导超导性

新型显微镜为科学家提供前所未有的动量空间视图

Light-Confining Cavity Controls Superconductivity Without External Fields

Superconducting Dome Found in Nickelate Thin Films

Superconducting Dome Discovery Hints at Room-Temperature Breakthrough