# Coherent spin state transfer via Heisenberg exchange

**Authors:** Yadav P. Kandel, Haifeng Qiao, Saeed Fallahi, Geoffrey C. Gardner,, Michael J. Manfra, John M. Nichol

arXiv: 1904.05372 · 2019-10-07

## TL;DR

This paper demonstrates the experimental transfer of electron spin states and entanglement in a quantum-dot array using Heisenberg exchange, advancing scalable quantum information processing.

## Contribution

It provides the first experimental demonstration of coherent spin state transfer via Heisenberg exchange in a scalable quantum-dot array.

## Key findings

- Successful transfer of single-spin states
- Transfer of entangled states achieved
- Scalable method suitable for quantum error correction

## Abstract

Quantum information science has the potential to revolutionize modern technology by providing resource-efficient approaches to computing, communication, and sensing. Although the physical qubits in a realistic quantum device will inevitably suffer errors, quantum error correction creates a path to fault-tolerant quantum information processing. Quantum error correction, however, requires that individual qubits can interact with many other qubits in the processor. Engineering this high connectivity can pose a challenge for platforms like electron spin qubits that naturally favor linear arrays. Here, we present an experimental demonstration of the transmission of electron spin states via Heisenberg exchange in an array of spin qubits. We transfer both single-spin and entangled states back and forth in a quadruple quantum-dot array without moving any electrons. Because it is scalable to large numbers of qubits, state transfer through Heisenberg exchange will be especially useful for multi-qubit gates and error-correction in spin-based quantum computers.

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/1904.05372/full.md

## References

48 references — full list in the complete paper: https://tomesphere.com/paper/1904.05372/full.md

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Source: https://tomesphere.com/paper/1904.05372