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SQUARE Team Studies Light-Activated Materials for Multifunctional Qubits

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One approach to quantum technology is based on materials whose quantum properties can be accessed and controlled optically. In an initiative called the Scalable Rare Earth Ion Quantum Computing Nodes (SQUARE) project, researchers at Karlsruhe Institute of Technology (KIT) are investigating materials — specifically, rare-earth ions — to be used for multifunctional quantum bits (qubits). Rare-earth ions are electrically charged atoms of rare-earth metals, and they have the potential to support the quantum properties that will be required for computation processes to be executed in parallel.

In an initiative called the Scalable Rare Earth Ion Quantum Computing Nodes (SQUARE) project, researchers at Karlsruhe Institute of Technology (KIT) are investigating materials for multifunctional quantum bits (qubits).
Laser light can be used to optically read out quantum registers based on spin states of single rare-earth ions in a crystalline membrane. Courtesy of Thomas Huemmer.

SQUARE, which is funded by the European Commission, is aimed at establishing which rare-earth ions can be used as basic building blocks for scalable quantum technologies. In particular, the SQUARE project team plans to demonstrate functional elements of a multiqubit quantum register that can be read out optically and to realize the building blocks of a quantum network. In cooperation with industry partners, the SQUARE team will develop central technological components required for scalable implementation.

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Rare-earth ions can store quantum states for a very long time and can be activated separately by light in special solid-state crystals. For these reasons, a large number of ions are accessible as qubits.

“Thanks to their special electronic structure, rare-earth ions are shielded against interference fields,” said professor David Hunger. “Moreover, they can strongly interact with each other, which is a major basis for quantum circuits.”

Research relating to single rare-earth ions still is in an early stage, but “the project concentrates on a highly promising platform that offers many advantages over established approaches, such as ions captured in vacuum devices and superconducting quantum circuits,” Hunger said.

The European Commission is funding SQUARE within the framework of the Quantum Technology Flagship. Over 10 years, the Flagship plans to invest a billion euros into research relating to quantum technologies. Through its investment, the Flagship hopes to accelerate development of novel technologies based on elemental quantum effects.

Published: November 2018
Glossary
quantum
The term quantum refers to the fundamental unit or discrete amount of a physical quantity involved in interactions at the atomic and subatomic scales. It originates from quantum theory, a branch of physics that emerged in the early 20th century to explain phenomena observed on very small scales, where classical physics fails to provide accurate explanations. In the context of quantum theory, several key concepts are associated with the term quantum: Quantum mechanics: This is the branch of...
Research & TechnologyeducationEuropeKarlsruhe Institute of TechnologyKITMaterialsOpticsCommunicationsquantumrare earth ionsQuantum Technology FlagshipScalable Rare Earth Ion Quantum Computing NodesTech Pulse

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