room-temperature-superconductor

这是什么？

🎯 模拟器提示

📚 术语表

Superconductivity

临界温度以下的零电阻状态

MeissnerEffect

从超导体中排除磁场

CooperPairs

负责超导性的成对电子

CriticalTemperature

低于发生超导的温度

BCSTheory

巴丁-库珀-施里弗超导理论

Cuprates

氧化铜高温超导体

TypeI

具有完全场排斥的超导体

TypeII

允许通量涡流的超导体

Hydrides

富氢高压超导体

SQUID

超导量子干涉装置

🏆 关键人物

Heike Kamerlingh Onnes

发现超导性（1911）

Bardeen, Cooper, Schrieffer

BCS理论（1972年诺贝尔奖）

Bednorz & Müller

高温超导体（1987 年诺贝尔奖）

Paul Chu

YBCO（第一个高于 77 K）

💬 给学习者的话

{'encouragement': "You're learning about one of physics' most remarkable phenomena and one of technology's most sought-after goals. Room-temperature superconductivity could change civilization.", 'reminder': 'The quest continues. Despite LK-99 not working out, researchers worldwide are still searching. The next breakthrough could come from anywhere.', 'action': 'Watch the Meissner effect in the simulator. See Cooper pairs form. Understand why this phenomenon is so special and why the quest continues.', 'dream': 'A physicist from Kenya might discover the key to room-temperature superconductivity. A materials scientist from Nigeria might synthesize the breakthrough material. This discovery will change everything.', 'wiaVision': 'WIA Pin Code believes understanding superconductivity should be global. The dream of lossless energy transmission could transform developing nations most of all.'}