与超导谐振器强耦合的各向异性稀土自旋系综。
Anisotropic rare-earth spin ensemble strongly coupled to a superconducting resonator.
作者信息
Probst S, Rotzinger H, Wünsch S, Jung P, Jerger M, Siegel M, Ustinov A V, Bushev P A
机构信息
Physikalisches Institut, Karlsruhe Institute of Technology, D-76128 Karlsruhe, Germany.
Institut für Mikro- und Nanoelektronische Systeme, Karlsruhe Institute of Technology, D-76189 Karlsruhe, Germany.
出版信息
Phys Rev Lett. 2013 Apr 12;110(15):157001. doi: 10.1103/PhysRevLett.110.157001. Epub 2013 Apr 8.
Interfacing photonic and solid-state qubits within a hybrid quantum architecture offers a promising route towards large scale distributed quantum computing. Ideal candidates for coherent qubit interconversion are optically active spins, magnetically coupled to a superconducting resonator. We report on an on-chip cavity QED experiment with magnetically anisotropic Er(3+)∶Y2SiO5 crystals and demonstrate collective strong coupling of rare-earth spins to a lumped element resonator. Moreover, the electron spin resonance and relaxation dynamics of the erbium spins are detected via direct microwave absorption, without the aid of a cavity.
在混合量子架构中连接光子量子比特和固态量子比特为大规模分布式量子计算提供了一条很有前景的途径。用于相干量子比特相互转换的理想候选者是与超导谐振器磁耦合的光学活性自旋。我们报道了一项使用磁各向异性Er(3+)∶Y2SiO5晶体的片上腔量子电动力学实验,并展示了稀土自旋与集总元件谐振器的集体强耦合。此外,铒自旋的电子自旋共振和弛豫动力学通过直接微波吸收来检测,无需借助腔体。
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