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Quantum Computer Platform Uses Optical Fiber to Perform at Room Temperature

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KONGENS LYNGBY, Denmark, Aug. 18, 2021 — A team at the Technical University of Denmark (DTU) has developed what it calls a “complete platform” for an optical quantum computer. The platform is universal and scalable, the team said, and takes place at room temperature. The technology is compatible with standard fiber optic networks.

The demonstration of a so-called universal gate set — and the implementation of several operations by means thereof — is what the team said constitutes an optical quantum computing advancement. Gates serve to perform operations on one or more qubits, and to implement an algorithm given that qubits are carriers of information.

“Our demonstration of a universal set of gates is absolutely crucial. It means that any arbitrary algorithm can be realized on our platform given the right inputs, namely optical qubits,” said Mikkel Vilsbøll Larsen, lead author of a paper describing the advancement. “The computer is fully programmable.”

The scalability of the optical quantum computing platform to thousands of qubits is crucial to the ability of the technology to dramatically increase processing power relative to standard transistor-based computers. Such an increase supports applications in the pharmaceutical industry, the transport sector, and materials development for carbon capture and storage.

The complete platform for an optical quantum computer supports a quantum device that is universal measurement-based, and uses optical fiber to eliminate the need for cooling with large cryostats. Courtesy of DTU.
The complete platform for an optical quantum computer supports a quantum device that is universal measurement-based, and uses optical fiber to eliminate the need for cooling with large cryostats. Courtesy of DTU. 
“Theoretically, there’s no difference between whether a quantum computer is based on superconducting or optical qubits. But there’s a decisive practical difference,” said senior researcher Jonas Neergaard-Nielsen. “Superconducting quantum computers are limited to the number of qubits fabricated on the specific processor chip. In our system, we’re constantly creating new ones and entangling them quantum mechanically with those we are performing calculations on. This means that our platform is easily scalable.

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“In addition, we don’t need to cool everything down in large cryostats. Instead, we can do it all at room temperature in optical fibers. The fact that the system is based on optical fibers also means that it can be connected directly to a future quantum internet, without difficult intermediaries.”

According to the researchers, the group passed the scaling milestone in 2019. In an article, the researchers reported that it produced the basic structure for a measurement-based optical quantum computer — a so-called two-dimensional cluster state with over 30,000 entangled light states. Earlier this year, they developed and patented a full theoretical framework for how their technology can also embrace error correction, in the long term.

“The long-term goal is a quantum computer that can solve relevant problems and fulfill the potential we’re all striving toward,” Ulrik Andersen, head of bigQ, said. Andersen has supervised the research program at bigQ, which is a research center that is part of DTU Physics.

“We know what it takes to place our current technology on an optical chip and introduce error correction, and we have the relevant international collaborations in place,” Andersen said. “The same applies to the corporate sector, where companies are eager to develop use cases with us.”

The research was published in Nature Physics (www.doi.org/10.1038/s41567-021-01296-y).

Published: August 2021
Glossary
quantum optics
The area of optics in which quantum theory is used to describe light in discrete units or "quanta" of energy known as photons. First observed by Albert Einstein's photoelectric effect, this particle description of light is the foundation for describing the transfer of energy (i.e. absorption and emission) in light matter interaction.
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...
optical fiber
Optical fiber is a thin, flexible, transparent strand or filament made of glass or plastic used for transmitting light signals over long distances with minimal loss of signal quality. It serves as a medium for conveying information in the form of light pulses, typically in the realm of telecommunications, networking, and data transmission. The core of an optical fiber is the central region through which light travels. It is surrounded by a cladding layer that has a lower refractive index than...
optoelectronics
Optoelectronics is a branch of electronics that focuses on the study and application of devices and systems that use light and its interactions with different materials. The term "optoelectronics" is a combination of "optics" and "electronics," reflecting the interdisciplinary nature of this field. Optoelectronic devices convert electrical signals into optical signals or vice versa, making them crucial in various technologies. Some key components and applications of optoelectronics include: ...
EuropeResearch & Technologyoptical quantum computeroptical quantum computingquantum opticsquantumoptical fiberdatacomtelecompharmaceuticalquantum information transmissionDTUoptoelectronicsTechnical University of Denmarkquantum measurementsquantum measurementquantum algorithms

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