Phila Rembold scite author profile

Quantum entanglement involving coherent superpositions of macroscopically distinct states is among the most striking features of quantum theory, but its realization is challenging, since such states are extremely fragile. Using a programmable quantum simulator based on neutral atom arrays with interactions mediated by Rydberg states, we demonstrate the deterministic generation of "Schrödinger cat" states of the Greenberger-Horne-Zeilinger (GHZ) type with up to 20 qubits. Our approach is based on engineering the energy spectrum and using optimal control of the many-body system. We further demonstrate entanglement manipulation by using GHZ states to distribute entanglement to distant sites in the array, establishing important ingredients for quantum information processing and quantum metrology. arXiv:1905.05721v2 [quant-ph]

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Introduction to quantum optimal control for quantum sensing with nitrogen-vacancy centers in diamond

Rembold

Oshnik

Müller

et al. 2020

111

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Diamond based quantum technology is a fast emerging field with both scientific and technological importance. With the growing knowledge and experience concerning diamond based quantum systems comes an increased demand for performance. Quantum optimal control (QOC) provides a direct solution to a number of existing challenges as well as a basis for proposed future applications. Together with a swift review of QOC strategies, quantum sensing, and other relevant quantum technology applications of nitrogen-vacancy (NV) centers in diamond, the authors give the necessary background to summarize recent advancements in the field of QOC assisted quantum applications with NV centers in diamond.

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Macroscopic Hyperpolarization Enhanced with Quantum Optimal Control

Marshall¹,

Reisser²,

Rembold³

et al. 2021

Preprint

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Phila Rembold

Generation and manipulation of Schrödinger cat states in Rydberg atom arrays

Introduction to quantum optimal control for quantum sensing with nitrogen-vacancy centers in diamond

Macroscopic Hyperpolarization Enhanced with Quantum Optimal Control

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