Quantum network solutions, by ground and by air

By Sandra Helsel posted 10 May 2022

(EurekaAlert) In an invited session at the American Physical Society’s March Meeting, two Chicago Quantum Exchange physicists took different approaches to address an obstacle central to the implementation of large-scale ground-based quantum networks: the distance between nodes is limited by how far a quantum signal can travel through optical fiber.  One suggested a quantum repeater and the second physicist favored taking quantum networks into the atmosphere and beyond

A solution to both amplify and prevent data loss
Liang Jiang, professor at the University of Chicago, focused on the most widely pursued solution: a quantum repeater.  Quantum repeaters would be placed between nodes in a network to regenerate the quantum signal so it could travel longer distances. No one has yet demonstrated a successful quantum repeater, though “there is significant progress in this direction,” according to Jiang.

But quantum systems are extremely prone to errors because of the sensitive nature of their quantum states, so error correction is a large and important area of study in the field of quantum technology.
“There are two important questions to ask, from the theory perspective,” Jiang said. “First, what is the maximum amount of quantum information that can be transmitted over a noisy fiber channel? Second, suppose we know that limit: can we achieve it with good quantum error-correcting code design?”

In addition to strategies for quantum error correction in quantum repeaters, as well as their predicted efficiencies, Jiang shared another application of quantum networks: quantum data centers (QDCs), where users on a quantum network can access a classical database for the purposes of quantum computing. The device necessary to retrieve classical data from a database as quantum bits, called a quantum random access memory (QRAM), would likely be extremely expensive, but Jiang sees QDCs as a solution.

Bringing quantum networks into the air and beyond
For Paul Kwiat, Bardeen Professor of Physics at the University of Illinois Urbana-Champaign, a solution to the problem of fiber optic signal loss could be to take the quantum network off the ground and into the air, via drones, or even into space, with satellites.
There are many advantages to such a “mobile” quantum network, where the nodes are easy to reposition. Some are more practical: using airborne vehicles as nodes for quantum communication where fiber connections are not an option, such as on naval ships on the ocean.
A quantum network between satellites in space would allow for even more tests of fundamental quantum mechanics, with greater distances and velocities than are possible on earth, and over regions with changing gravitational effects.

This past year, NASA helped fund a US-led project called Space Entanglement and Annealing QUantum Experiment (SEAQUE), which will test quantum communication technologies in orbit. It will be the first quantum information science payload on a commercial space station module: Nanoracks Bishop Airlock, which is attached to the International Space Station. It will also be the first flown “integrated optic waveguide source,” which is more efficient than previous, similar quantum experiments, since there are no moving pieces that require regular realignment. SEAQUE is currently scheduled to launch in spring 2023.

Kwiat’s group, leading the project, is responsible for the optical payload and control board for SEAQUE; other elements are being provided by institutions in the US, Canada, and Singapore.

Sandra K. Helsel, Ph.D. has been researching and reporting on frontier technologies since 1990.  She has her Ph.D. from the University of Arizona.

Subscribe to Our Email Newsletter

Stay up-to-date on all the latest news from the Quantum Technology industry and receive information and offers from third party vendors.

  • Forthcoming Events

    • IQT Fall (Quantum Cybersecurity)
      October 25-27, 2022
      New York City | In-Person
      (website forthcoming)
    • IQT The Hague (Quantum Communications)
      February 21-23, 2023
      The Hague | In-Person
      (website forthcoming)
    • IQT Spring (Quantum Enterprise)
      April 18-20, 2023
      San Jose | In-Person
      (website forthcoming)
    • Sponsorship / Speaking:
      info@3drholdings.com
0