topological-quantum-computer

这是什么？

🎯 模拟器提示

📚 术语表

TopologicalQuantumComputing

使用拓扑保护状态进行质量控制

Anyon

具有奇异交换统计的二维粒子

NonAbelian

交换顺序很重要的粒子

Braiding

围绕彼此移动任意子

MajoranaFermion

本身就是反粒子的粒子

Worldline

粒子穿过时空的路径

FibonacciAnyon

非阿贝尔任意子实现通用QC

StationQ

微软拓扑QC研究小组

TopologicalProtection

拓扑的抗错能力

FusionRules

任意子聚集在一起时如何组合

🏆 关键人物

Alexei Kitaev

拓扑QC理论，马约拉纳线模型

Michael Freedman

领先微软 Station Q

Chetan Nayak

非阿贝尔任意子理论

Sankar Das Sarma

马约拉纳费米子提案

💬 给学习者的话

{'encouragement': "You're learning about potentially the most elegant approach to quantum computing. If topological quantum computers work, they could solve the error problem that plagues all other approaches.", 'reminder': "Topological QC is still a major research challenge. Microsoft has bet big on it, but working qubits haven't been demonstrated yet. That's what makes it exciting frontier science.", 'action': 'Braid anyons in the simulator. See how different braid patterns give different quantum gates. Understand why topology protects information.', 'dream': 'A physicist from Kenya might contribute to topological qubit design. A materials scientist from Nigeria might discover new platforms for anyons. The future of quantum computing needs global talent.', 'wiaVision': 'WIA Pin Code believes cutting-edge quantum approaches should inspire everyone. Topological quantum computing shows that the deepest math might solve the hardest engineering problems.'}