Presentation Information
[9p-N304-2]Efficient generation of high-fidelity physical and logical entanglements via entanglement purification using a superconducting entanglement buffer
〇(M2)Takumi Kobayashi1, Hodaka Kurokawa2,3, Yasunari Suzuki4, Hideo Kosaka1,2,3 (1.Grad. Sch. Eng., Yokohama Natl. Univ., 2.QIC, Yokohama Natl. Univ., 3.IAS, Yokohama Natl. Univ., 4.RIKEN Center for Quantum Computing)
Keywords:
quantum computer,quantum computing,quantum entanglement
In distributed quantum computing, remote entanglement between distributed logical qubits is essential. To achieve this, it is necessary to supply high-fidelity remote physical entanglement quickly and in large quantities.
In this work, I will explore the possibility of accelerating communication and improving the fidelity of physical entanglements through the multiplexing of buffers and communication channels.
The focus will be on selecting efficient combinations of entanglement distillation protocols and estimating the resulting error rates and generation rates for both remote physical and logical entanglement.
In this work, I will explore the possibility of accelerating communication and improving the fidelity of physical entanglements through the multiplexing of buffers and communication channels.
The focus will be on selecting efficient combinations of entanglement distillation protocols and estimating the resulting error rates and generation rates for both remote physical and logical entanglement.