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Science Technology

Physicists Reverse Time Using Quantum Computer (phys.org) 95

fahrbot-bot shares a report from Phys.Org: Researchers from the Moscow Institute of Physics and Technology teamed up with colleagues from the U.S. and Switzerland and returned the state of a quantum computer a fraction of a second into the past. They also calculated the probability that an electron in empty interstellar space will spontaneously travel back into its recent past. The study is published in Scientific Reports.

Quantum physicists from MIPT decided to check if time could spontaneously reverse itself at least for an individual particle and for a tiny fraction of a second. That is, instead of colliding billiard balls, they examined a solitary electron in empty interstellar space. "Suppose the electron is localized when we begin observing it. This means that we're pretty sure about its position in space. The laws of quantum mechanics prevent us from knowing it with absolute precision, but we can outline a small region where the electron is localized," says study co-author Andrey Lebedev from MIPT and ETH Zurich. The physicist explains that the evolution of the electron state is governed by Schrodinger's equation. Although it makes no distinction between the future and the past, the region of space containing the electron will spread out very quickly. That is, the system tends to become more chaotic. The uncertainty of the electron's position is growing. This is analogous to the increasing disorder in a large-scale system -- such as a billiard table -- due to the second law of thermodynamics.

"However, Schrodinger's equation is reversible," adds Valerii Vinokur, a co-author of the paper, from the Argonne National Laboratory, U.S. "Mathematically, it means that under a certain transformation called complex conjugation, the equation will describe a 'smeared' electron localizing back into a small region of space over the same time period." Although this phenomenon is not observed in nature, it could theoretically happen due to a random fluctuation in the cosmic microwave background permeating the universe. The team set out to calculate the probability to observe an electron "smeared out" over a fraction of a second spontaneously localizing into its recent past. It turned out that even across the entire lifetime of the universe -- 13.7 billion years -- observing 10 billion freshly localized electrons every second, the reverse evolution of the particle's state would only happen once. And even then, the electron would travel no more than a mere one ten-billionth of a second into the past.
The researchers then attempted to reverse time in a four-stage experiment by observing the state of a quantum computer made of superconducting qubits, instead of an electron. The researchers "found that in 85 percent of the cases, the two-qubit quantum computer returned back into the initial state," reports Phys.Org. "When three qubits were involved, more errors happened, resulting in a roughly 50 percent success rate. According to the authors, these errors are due to imperfections in the actual quantum computer. As more sophisticated devices are designed, the error rate is expected to drop."
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Physicists Reverse Time Using Quantum Computer

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  • by Anonymous Coward

    The experiment was about reversing entropy, not actually reversing the flow of time.

    That is interesting enough, why make up stupid headlines?

    Same thing happened a ways back about some chemist unboiling an egg [livescience.com], which some copywriters (not linked article) tried to make it sound like time was being reversed.

    • by Cederic ( 9623 ) on Thursday March 14, 2019 @03:38AM (#58271350) Journal

      I'm not sure they reversed entropy either. I thought that wasn't actually possible (much like time travel).

      They took an electron and took it from state A to B and back to A. The energy required to go from B to A probably caused a net increase in entropy.

      I concur though that it feels an ambitious headline. Does this mean I'm reversing time when I take a piss into the glass I drank out of?

      • Re: (Score:2, Interesting)

        by Anonymous Coward

        Entropy is a rule based on probability.
        So there is allways a miniscule chance that entropy spontanuously reverses.
        And the smaller the system (for instance a couple of particles) the larger the chance of reversal.

      • by account_deleted ( 4530225 ) on Thursday March 14, 2019 @07:58AM (#58271866)
        Comment removed based on user account deletion
        • The universe will stop, and reverse time causing the everything to collapse into a singularity again. That means as the universe goes backwards, the dead will rise from the grave, humanity will eat excrement, un-chew food, and effectively vomit whole pieces of good. Oh, and you will reverse ageing until your a baby and get sucked up by a vagina.

          Fun times.

          This is the plot to "Yug Ylimaf" - the fourth episode of season 11 of Family Guy. This in turn may have been inspired by "Backwards' - the first episode of Red Dwarf.

          • This in turn may have been inspired by "Backwards' - the first episode of Red Dwarf.

            Well, the first episode of Red Dwarf’s third season, anyway...

        • you will reverse ageing until your a baby and get sucked up by a vagina.

          So as long as the average slashdotter can just find a way to live until nine months before the end of the universe, he won't die a virgin.

          There's hope for everyone.

      • by lgw ( 121541 )

        I'm not sure they reversed entropy either. I thought that wasn't actually possible (much like time travel).

        Everything in physics is reversible, though you have to reverse polarity and chirality when you reverse time.

        Importantly, entropy works the same in both directions. A system in a state of low entropy will probably increase in entropy in both directions in time!

        Here's an example. The classic example of entropy is that an egg breaking seems natural, but an broken egg re-assembling itself is so unlikely as to seem impossible. But the change in entropy in breaking an egg is tiny compared to the change in en

        • I'm not sure they reversed entropy either. I thought that wasn't actually possible (much like time travel).

          Everything in physics is reversible, though you have to reverse polarity and chirality when you reverse time.

          Importantly, entropy works the same in both directions. A system in a state of low entropy will probably increase in entropy in both directions in time!

          Here's an example. The classic example of entropy is that an egg breaking seems natural, but an broken egg re-assembling itself is so unlikely as to seem impossible. But the change in entropy in breaking an egg is tiny compared to the change in entropy in digesting an egg. So what are the odds of an egg re-assembling itself from CHON atoms? Well, it happens so often we have a name for the process: chicken.

          When played "forward" in time, a chicken uses energy to reduce entropy to form an egg, and that energy is released when the egg is digested. Played "backwards" in time, once again energy is used to reduce entropy to form an egg, and that energy is released in the chicken.

          tldr: like everything else in physics, entropy looks about the same "backwards".

          Everything in Physics is reversible if you have an Eraser, too

      • I concur though that it feels an ambitious headline. Does this mean I'm reversing time when I take a piss into the glass I drank out of?

        Only if it was Budweiser. Otherwise it wouldn't taste the same as before...

      • You're not reversing time, but you are reversing entropy. I mean, that's kind of what living things do. They use energy sources to lower their own entropy. You're doing it constantly. If you stopped doing it, your entropy would start increasing and you'd die. It's very easy to decrease the entropy of a system, as long as you balance it out by dumping that entropy (and a little bit more for good measure) somewhere else.

        The energy required to go from B to A probably caused a net increase in entropy.

        Not probably, definitely. Thermodynamics isn't just a good idea, it's the law!

    • It is reversing time, like me restoring my PC from a backup and resetting the system clock to the time of the backup. For my PC being a closed system, it would be like it is back in time, but the passage of time hasn't changed.

      The real exciting thing, is having a reset option on a quantum computer.

  • by Anonymous Coward

    They did not "send it back in time" anymore than the antimatter travels back in time.

    If time was a thermodynamic phenomenon, why doesn't shit get younger when you put it in the fridge?

    • The ability to recall a previous state and return to it. I've got an idea, should we call this new invention something like "memory"?

  • by Anonymous Coward

    They reversed a calculation on a quantum computer. Time was moving forward throughout the entire experiment.

    Maybe some part of their algorithm might be useful somehow, but overall it seems like they were wasting time rather than reversing it.

  • by Martin S. ( 98249 ) on Thursday March 14, 2019 @02:49AM (#58271278) Journal

    This doesn't prove time reversal, it show a quantum computer can unreliably implement the Undo-Redo pattern.

  • by cyber-vandal ( 148830 ) on Thursday March 14, 2019 @03:04AM (#58271300) Homepage

    Somebody tell Cher!

  • "in 85 percent of the cases, the two-qubit quantum computer returned back into the initial state," ... According to the authors, these errors are due to imperfections in the actual quantum computer.

    Maybe the amazing headline result is due to one of these errors, rather than the null hypothesis being due to errors?

  • nothing to defy the laws of physics, especially and including time travel
  • This isn't reversing time, it's zeroing bits.
  • by cjonslashdot ( 904508 ) on Thursday March 14, 2019 @06:34AM (#58271654)
    I had read the original article. They did not actually reverse time. What they did was cause events that normally only go one way in time to go the other way: e.g., breaking an egg - one can't cause an egg to re-assemble. Well, they did, so to speak. But it did so in the forward time direction.
  • ... why Deja Vu happens...

  • by ITRambo ( 1467509 ) on Thursday March 14, 2019 @07:32AM (#58271788)
    The electron is not moving back in time. It is recreating a past state, but in the present time frame. It is not possible to actually measure backwards time travel without the observer also moving back in time. These are my thoughts on the subject.
    • Check out Fredric Brown's short stories on time. The one that applies here is "Hall of Mirrors," but "The End" is also appropriate.
    • Theoretically if you can recreate a past state you can embed information from another time in that state and learn something from another time.
  • by jfdavis668 ( 1414919 ) on Thursday March 14, 2019 @08:20AM (#58271936)
    It always makes me feel like I am time traveling.
  • I can't wait to see if this was a IEEE floating point rounding problem.

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