AUGUST 22, 2019 by University of Vienna

The theories of quantum mechanics and gravity are notorious for being incompatible, despite the efforts of scores of physicists over the past fifty years. However, recently an international team of researchers led by physicists from the University of Vienna, the Austrian Academy of Sciences as well as the University of Queensland (AUS) and the Stevens Institute of Technology (U.S.) have combined the key elements of the two theories describing the flow of time and discovered that temporal order between events can exhibit genuine quantum features.

According to general relativity, the presence of a massive object slows down the flow of time. This means that a clock placed close to a massive object will run slower as compared to an identical one that is further away.

However, the rules of quantum theory allow for any object to be prepared in a superposition state. A superposition state of two locations is different to placing an object in one or the other location randomly—it is another way for an object to exist, allowed by the laws of quantum physics.

One of the open questions in physics is: What happens when an object massive enough to influence the flow of time is placed in a quantum superposition state?

This is a controversial topic: some physicists claim that such scenarios are fundamentally impossible—some new mechanism must block the superposition from forming in the first place—while others develop entire theories based on the assumption that this is possible.

“We started by tackling a question: what would a clock measure if it was influenced by a massive object in a quantum superposition state?” explains Magdalena Zych from the University of Queensland.

The scientists were expecting to face the roadblocks making the scenario impossible, but surprisingly, using standard textbook physics they were able to exactly describe what happens.

They so discovered that when a massive object is placed in a quantum superposition in the vicinity of a set of clocks, their time order can become genuinely quantum, defying any classical description.

Caslav Brukner, coauthor from the University of Vienna and the Austrian Academy of Sciences added that the regime where quantum time order could arise is quite remote from our everyday experience, “but the most important insight from our work is that quantum time order is at all possible, and that it results in new physical effects.”

To illustrate what happens, imagine a pair of starships training for a mission. They are asked to fire at each other at a specified time, and immediately start their engines in order to dodge each other’s attack. If either of the ships fires too early, it will destroy the other, and this establishes an unmistakable time order between the firing events. If a powerful agent could place a sufficiently massive object, say a planet, closer to one ship it would slow down its counting of time. As a result, the ship farther away from the mass will fire too early for the first one to escape.

The laws of quantum physics and gravity predict that by manipulating a quantum superposition state of the planet, the ships can end up in a superposition of either of them being destroyed. Such a superposition state, involving two systems, is called entangled. The new work shows that the temporal order among events can exhibit superposition and entanglement—genuinely quantum features of particular importance for testing quantum theory against alternatives. The result can now be used as a theoretical testing ground for frameworks for quantum gravity, and thus help to move forward in formulating the correct theory of quantum gravity.

The study will also be relevant for future quantum technologies. Quantum computers that exploit quantum order of performing operations might beat devices that operate using only fixed sequences. Practical implementations of quantum temporal order do not require extreme conditions—such as planets in superposition—and can be simulated without the use of gravity. The discovery of quantum properties of time can lead to better quantum devices in the upcoming era of quantum computers.

More information: Magdalena Zych et al. Bell’s theorem for temporal order, Nature Communications (2019). 
DOI: 10.1038/s41467-019-11579-x
Journal information: Nature Communications
Provided by University of Vienna

Collected at:  https://phys.org/news/2019-08-quantum-gravity-tangled.html?utm_source=nwletter&utm_medium=email&utm_campaign=weekly-nwletter 

9 thoughts on “Quantum gravity’s tangled time”

  1. Whats up very nice web site!! Man .. Beautiful .. Superb .. I will bookmark your site and take the feeds also…I’m happy to find so many useful information right here within the publish, we need develop more strategies in this regard, thank you for sharing.

  2. It is appropriate time to make some plans for the future and it is time to be happy.
    I have read this post and if I could I desire to suggest you few interesting things or advice.
    Maybe you could write next articles referring to this article.

    I desire to read even more things about it!

  3. Appreciating the commitment you put into your website and detailed information you
    offer. It’s awesome to come across a blog every once in a while that isn’t the
    same out of date rehashed information. Excellent read!
    I’ve bookmarked your site and I’m including your RSS feeds to my Google account.

  4. Its such as you read my mind! You appear to grasp so much approximately this, such as you wrote the e-book in it or something.
    I think that you just could do with a few % to pressure the message home a little bit, however other than that, that is great blog.
    A great read. I will certainly be back.

  5. Have you ever thought about adding a little
    bit more than just your articles? I mean, what you say is fundamental and everything.

    But imagine if you added some great visuals or videos to give
    your posts more, “pop”! Your content is excellent but with images and clips, this site could definitely
    be one of the very best in its niche. Great blog!

  6. Woah! I’m really enjoying the template/theme of this site.

    It’s simple, yet effective. A lot of times it’s tough to get that “perfect balance” between user friendliness
    and visual appearance. I must say you have done a amazing job
    with this. Also, the blog loads super fast for me on Opera.
    Exceptional Blog!

  7. Hello very nice web site!! Man .. Excellent .. Superb .. I’ll bookmark your web
    site and take the feeds also? I’m happy to search out numerous useful
    information right here within the post, we need work out
    more strategies in this regard, thanks for sharing. .
    . . . .

Leave a Reply

Your email address will not be published. Required fields are marked *