量子退相干
去相
量子位元
自旋工程
自旋(空气动力学)
物理
相干控制
量子信息
量子纠错
量子力学
量子计算机
量子
电子
自旋极化
热力学
作者
MengKe Feng,Jun Yoneda,W. Huang,Yue Su,Tuomo Tanttu,Chih Hwan Yang,Jesús D. Cifuentes,K. W. Chan,Will Gilbert,Ross C. C. Leon,Fay E. Hudson,Kohei M. Itoh,Arne Laucht,Andrew S. Dzurak,André Saraiva
出处
期刊:Physical review
[American Physical Society]
日期:2023-02-27
卷期号:107 (8)
被引量:6
标识
DOI:10.1103/physrevb.107.085427
摘要
One of the key pathways toward scalability of spin-based quantum computing systems lies in achieving long-range interactions between electrons and increasing their interconnectivity. Coherent spin transport is one of the most promising strategies to achieve this architectural advantage. Experimental results have previously demonstrated high-fidelity transportation of spin qubits between two quantum dots in silicon and identified possible sources of error. In this theoretical study, we investigate these errors and analyze the impact of tunnel coupling, magnetic field, and spin-orbit effects on the spin transfer process. The interplay between these effects gives rise to double dot configurations that include regimes of enhanced decoherence that should be avoided for quantum information processing. These conclusions permit us to extrapolate previous experimental conclusions and rationalize the future design of large-scale quantum processors.
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