Stories
Slash Boxes
Comments

SoylentNews is people

SoylentNews is powered by your submissions, so send in your scoop. Only 17 submissions in the queue.

Quantum Motion Unveils Potentially Scalable Qubit With 9-Second Quantum State Lifetime

posted by Fnord666 on Saturday April 03 2021, @05:06AM   Printer-friendly
from the neither-here-nor-there dept.

takyon writes:

Quantum Motion unveils 9-second silicon qubit

Quantum Motion, a four-year-old UK-based startup is today announcing a quantum computing breakthrough, demonstrating that a stable qubit can be created on a standard silicon chip, similar to those used in smartphones.

[...] Even chipmaker Intel, which is testing a similar silicon-based approach in collaboration with Delft-based startup QuTech, talks about times of 1 second — and this is several orders of magnitude longer than what has been achieved by quantum companies using the superconducting approach.

[...] But more importantly, if the silicon approach works, the quantum computer industry would not have to build a new set of chip foundries — they could use the infrastructure that is already there. It would also be easier to combine quantum and classic computers if both use the same silicon chip and transistor architecture.

[...] Some of the quantum computing technologies may also be quite bulky when you scale up to multiple thousands of qubits. But in theory, a million of Quantum Motion's electron-spin qubits could be packed onto a 1cm square chip. You would still need the elaborate chandelier-like refrigerator to keep the chips at a fraction of a kelvin above absolute zero, but just one such refrigerator — similar in size to a server rack — can hold many chips.

Press release.

Also at TechRadar.

Journal Reference:
Virginia N. Ciriano-Tejel, Michael A. Fogarty, Simon Schaal, et al. Spin Readout of a CMOS Quantum Dot by Gate Reflectometry and Spin-Dependent Tunneling [open], PRX Quantum (DOI: 10.1103/PRXQuantum.2.010353)

Original Submission

 
This discussion has been archived. No new comments can be posted.
Quantum Motion Unveils Potentially Scalable Qubit With 9-Second Quantum State Lifetime | Log In/Create an Account | Top | 13 comments | Search Discussion
Display Options Threshold/Breakthrough Mark All as Read Mark All as Unread
The Fine Print: The following comments are owned by whoever posted them. We are not responsible for them in any way.

  • (Score: 0) by Anonymous Coward on Saturday April 03 2021, @01:48PM (3 children)

    by Anonymous Coward on Saturday April 03 2021, @01:48PM (#1132865)

    What is the difference between a quantum computer and an analog computer?

  • (Score: 2) by maxwell demon on Sunday April 04 2021, @07:46AM (2 children)

    by maxwell demon (1608) Subscriber Badge on Sunday April 04 2021, @07:46AM (#1133071) Journal

    Classical analogue computers don't have entanglement.

    The difference between a quantum digital computer and a quantum analogue computer is of course roughly the same as the difference between a classical digital and a classical analogue computer.

    --
    The Tao of math: The numbers you can count are not the real numbers.

    • (Score: 0) by Anonymous Coward on Sunday April 04 2021, @12:09PM (1 child)

      by Anonymous Coward on Sunday April 04 2021, @12:09PM (#1133103)

      Isn't the only role of entanglement to allow correlated bits, which you can do with an analogue computer.

      • (Score: 0) by Anonymous Coward on Sunday April 04 2021, @05:18PM

        by Anonymous Coward on Sunday April 04 2021, @05:18PM (#1133186)

        Analog computers don't have bits. They use state variables
        (like a voltage level) that have a continuous range of values, and use them in analog circuits that carry out the operations.