Scalable universal holonomic quantum computation realized with an adiabatic quantum data bus and potential implementation using superconducting flux qubits

Chancellor N.; Haas S.

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Scalable universal holonomic quantum computation realized with an adiabatic quantum data bus and potential implementation using superconducting flux qubits

机译：利用绝热量子数据总线实现可扩展的通用完整量子计算，并使用超导通量量子位实现

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In this paper we examine the use of an adiabatic quantum data transfer protocol to build a universal quantum computer. Single-qubit gates are realized by using a bus protocol to transfer qubits of information down a spin chain with a unitary twist. This twist arises from altered couplings on the chain corresponding to unitary rotations performed on one region of the chain. We show how a controlled-not gate can be realized by using a control qubit with Ising-type coupling. The method discussed here can be extended to nonadiabatic quantum bus protocols. We also examine the potential of realizing such a quantum computer by using superconducting flux qubits.

机译：在本文中，我们研究了使用绝热量子数据传输协议来构建通用量子计算机。单量子位门是通过使用总线协议以单一扭曲方式沿自旋链向下传输信息量子位来实现的。这种扭曲是由链条上对应于在链条一个区域上执行的整体旋转的链节改变而引起的。我们展示了如何通过使用具有Ising型耦合的控制量子位来实现非受控门。这里讨论的方法可以扩展到非绝热量子总线协议。我们还将研究通过使用超导通量量子位实现这种量子计算机的潜力。

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《Physical Review, A. Atomic, molecular, and optical physics》 |2013年第1期|共8页
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Chancellor N.; Haas S.;
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1. Scalable universal holonomic quantum computation realized with an adiabatic quantum data bus and potential implementation using superconducting flux qubits [J] . Nicholas Chancellor, Stephan Haas PHYSICAL REVIEW A . 2013,第4期

机译：用绝热量子数据总线实现可扩展的通用完整量子计算，并使用超导通量量子位实现
2. Scalable nonadiabatic holonomic quantum computation on a superconducting qubit lattice [J] . Physical Review, A . 2019,第6aPta1期

机译：超导Qubit晶格上可扩展的非等级定性量子计算
3. Possible implementation of adiabatic quantum algorithm with superconducting flux qubits [J] . M. Grajcar, A. Izmalkov, E. Ilichev Physical review. B, Condensed Matter And Materals Physics . 2005,第14期

机译：具有超导通量量子位的绝热量子算法的可能实现
4. Flux-based superconducting qubits for quantum computation [C] . T.P. Orlando, S. Lloyd, L.S. Levitov, European conference on applied superconductivity . 2002

机译：基于通量的量子计算超导Qubits
5. Optimization of superconducting flux qubit readout using near-quantum-limited amplifiers. [D] . Johnson, Jedediah Edward Jensen. 2012

机译：使用接近量子限制的放大器优化超导通量量子比特读数。
6. Universal holonomic quantum gates over geometric spin qubits with polarised microwaves [O] . Kodai Nagata, Kouyou Kuramitani, Yuhei Sekiguchi, -1

机译：极化微波在几何自旋量子位上的通用完整量子门
7. Scalable universal holonomic quantum computation realized with an adiabatic quantum data bus and potential implementation using superconducting flux qubits [O] . Chancellor, Nicholas, Haas, Stephan 2013

机译：利用maTLaB实现可扩展的通用完整量子计算绝热量子数据总线和使用超导的潜在实现通量量子比特

Scalable universal holonomic quantum computation realized with an adiabatic quantum data bus and potential implementation using superconducting flux qubits

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