@article{Remotely-Connected:1723,
      recid = {1723},
      author = {Zhong, Youpeng},
      title = {Violating Bell’s Inequality with Remotely-Connected  Superconducting Qubits},
      publisher = {The University of Chicago},
      school = {Ph.D.},
      address = {2019-03},
      pages = {200},
      abstract = {Quantum communication relies on the efficient generation  of entanglement between remote quantum nodes, due to  entanglement’s key role in achieving and verifying secure  communications. Remote entanglement has been realized using  a number of different

probabilistic schemes, but  deterministic remote entanglement has only recently been  demonstrated, using a variety of superconducting circuit  approaches. However, the deterministic violation of a Bell  inequality, a strong measure of quantum correlation, has  not

to date been demonstrated in a superconducting quantum  communication architecture, in part because achieving  sufficiently strong correlation requires fast and accurate  control of the emission and capture of the entangling  photons. Here we present a simple and

robust architecture  for achieving this benchmark result in a superconducting  system.},
      url = {http://knowledge.uchicago.edu/record/1723},
      doi = {https://doi.org/10.6082/uchicago.1723},
}