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    The ‘arrow of time’ (mostly) moves forward in quantum systems

    New experiments with "movies" of quantum systems show that they follow the second law of thermodynamics—most of the time, that is.
    by Talia Ogliore-WUSTL Jul 15, 2019 1 minute
    bent one way sign (quantum systems concept)

    Researchers have compared the forward and reverse trajectories of superconducting circuits called qubits and found that they follow the second law of thermodynamics.

    Even in the strange world of open quantum systems, the arrow of time points steadily forward—most of the time, according to the new research.

    “When you look at a quantum system, the act of measuring usually changes the way it behaves,” says Kater Murch, associate professor of physics at Washington University in St. Louis. “Imagine shining light on a small particle. The photons end up pushing it around and there is a dynamic associated with the measurement process alone.

    “We wanted to find out if these dynamics have anything to do with the arrow of time—the fact that entropy tends to increase as time goes on.”

    In the video above, Murch asks, “Do quantum movies look funny when you play them backwards?” He and his team, including first author Patrick Harrington, a graduate student in physics, took that question to the lab.

    “We looked at microscopic movies of a quantum system’s movement during measurement, and asked if the movies looked more likely when played forward or backwards; this comparison can be used to determine if entropy increases or not,” Murch says. “We found that even at the microscopic scale, the second law seems to hold: entropy generally increases.

    “This increase happens because we look at it—the process of making the movie seemingly creates the arrow of time,” he says.

    Murch’s research group is focused on understanding and controlling open quantum systems. While everyday objects obey the laws of classical mechanics, single particles of light or matter follow instead the laws of quantum physics. But these particles are not easily isolated, and as soon as they interact with the outside world they lose their quantum properties.

    Funding for the work came, in part, from Murch’s 2015 Alfred P. Sloan Research Fellowship.

    Source: Washington University in St. Louis

    The post The ‘arrow of time’ (mostly) moves forward in quantum systems appeared first on Futurity.

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