Characterization and Optimization of Tunable Couplers via Adiabatic Control in Superconducting Circuits

  1. Xuan Zhang,
  2. Xu Zhang,
  3. Changling Chen,
  4. Kai Tang,
  5. Kangyuan Yi,
  6. Kai Luo,
  7. Zheshu Xie,
  8. Yuanzhen Chen,
  9. and Tongxing Yan
In the pursuit of scalable superconducting quantum computing, tunable couplers have emerged as a pivotal component, offering the flexibility required for complex quantum operations

Hardware-Efficient Stabilization of Entanglement via Engineered Dissipation in Superconducting Circuits

  1. Changling Chen,
  2. Kai Tang,
  3. Yuxuan Zhou,
  4. KangYuan Yi,
  5. Xuan Zhang,
  6. Xu Zhang,
  7. Haosheng Guo,
  8. Song Liu,
  9. Yuanzhen Chen,
  10. Tongxing Yan,
  11. and Dapeng Yu
Generation and preservation of quantum entanglement are among the primary tasks in quantum information processing. State stabilization via quantum bath engineering offers a resource-efficient