Close Menu
    Trending
    • US Senate candidate’s implosion forces Democratic reckoning
    • Is Syria stable enough to engage with the world? | Syria’s War News
    • Must-draft players in new Yahoo College Fantasy Football leagues
    • Here’s What It Really Takes to Support Other Entrepreneurs
    • Resuscitated human retinas respond to light 10 hours after death
    • Map: 3.5-Magnitude Earthquake Shakes Central California
    • Ukraine & Zelensky’s Ultimate Corruption
    • John Stamos Reveals Why He Will ‘Never’ Be On ‘DWTS’
    Benjamin Franklin Institute
    Thursday, July 9
    • Home
    • Politics
    • Business
    • Science
    • Technology
    • Arts & Entertainment
    • International
    Benjamin Franklin Institute
    Home»Science»Most complex time crystal yet has been made inside a quantum computer
    Science

    Most complex time crystal yet has been made inside a quantum computer

    Team_Benjamin Franklin InstituteBy Team_Benjamin Franklin InstituteJanuary 29, 2026No Comments4 Mins Read
    Share Facebook Twitter Pinterest Copy Link LinkedIn Tumblr Email VKontakte Telegram
    Share
    Facebook Twitter Pinterest Email Copy Link


    The IBM Quantum System Two, which is similar to the machine used to make the new time crystal

    IBM Research

    A time crystal more complex than any made before has been created in a quantum computer. Exploring the properties of this unusual quantum setup strengthens the case for quantum computers as machines well-suited for scientific discovery.

    Typical crystals have atoms arranged in a specific repeating pattern in space, but time crystals are defined by a pattern that repeats in time instead. A time crystal repeatedly cycles through the same set of configurations and, barring deleterious influences from its environment, should continue cycling indefinitely.

    This indefinite motion initially made time crystals seem like a threat to the fundamental laws of physics, but throughout the past decade researchers have made several of them in the lab. Now, Nicolás Lorente at Donostia International Physics Center in Spain and his colleagues have used an IBM superconducting quantum computer to make an unprecedentedly complex time crystal.

    While most past studies focused on one-dimensional time crystals, which can be compared to a neat line of atoms, the researchers set out to create a two-dimensional version. To that end, they used 144 superconducting qubits arranged in an interlocking pattern roughly like a honeycomb. Each qubit played the role of a particle with quantum mechanical spin, which is a key component of quantum materials such as magnets, and the team could control how nearby qubits interacted with each other.

    Varying these interactions over time is what gave rise to the time crystal, but the researchers could also program the interactions to have a particularly pattern of strengths.

    Being able to reach this new level of complexity allowed the team not only to create a time crystal more complex than any produced with a quantum computer before now, but also to start mapping out the features of the whole qubit system to obtain its “phase diagram” – a map that shows all the possible states the system can take. Completing a phase diagram is an important step for understanding the properties of a material – a phase diagram of water, for instance, reveals whether the water is liquid, solid or gas at a given temperature and pressure.

    Jamie Garcia at IBM, who wasn’t involved in the research, says this experiment may be the first in many steps that could eventually lead to quantum computers helping to design new materials based on a fuller picture of all the possible properties a quantum system can have, including those as odd as time crystals.

    The equations that the researchers used as a blueprint for making the time crystal and to begin constructing its phase diagram were already complicated enough that conventional computers can’t use them for simulations without having to make approximations. At the same time, all existing quantum computers suffer from errors, so the researchers had to use those conventional methods to estimate where the quantum computer’s work, such as the phase diagram, may become unreliable. This back-and-forth between approximate conventional methods and exact but error-prone quantum approaches could sharpen our understanding of many complex quantum models for materials going forward, says Garcia.

    “Two-dimensional systems are practically very challenging to simulate numerically, so the large-scale quantum simulation with more than 100 qubits should provide an anchor point for future research,” says Biao Huang at the University of Chinese Academy of Sciences. He says that the new study represents exciting experimental progress for several areas of study into quantum matter. Specifically, it could help connect time crystals, which can be simulated on quantum computers, to similar states that can be created in some types of quantum sensors, says Huang.

    Topics:

    • quantum computing/
    • quantum physics



    Source link

    Share. Facebook Twitter Pinterest LinkedIn Tumblr Email Telegram Copy Link

    Related Posts

    Science

    Resuscitated human retinas respond to light 10 hours after death

    July 9, 2026
    Science

    A worm that lived half a billion years ago preferred turning right

    July 9, 2026
    Science

    The 4 best science-fiction shows of 2026 so far

    July 9, 2026
    Science

    A surprisingly detailed look at the physics of a lugworm’s poop

    July 9, 2026
    Science

    The allergy culprit histamine also boosts our memory

    July 9, 2026
    Science

    Does time come from the entire universe running computations?

    July 9, 2026
    Editors Picks

    Six countries sanction enablers of settler violence in occupied West Bank | Israel-Palestine conflict News

    June 9, 2026

    WATCH: Georgia Republican Senator Shoved To The Floor, Arrested After Trying To Attend Brian Kemp’s State of the State Address

    January 19, 2025

    Hawkish Members Outnumbered – Fed Cuts Rates For Third Consecutive Time

    December 11, 2025

    South Africa edge Zimbabwe 3-2 to book AFCON 2025 knockout place | Football News

    December 29, 2025

    Egypt draw 1–1 with Belgium at World Cup group game | World Cup 2026

    June 15, 2026
    About Us
    About Us

    Welcome to Benjamin Franklin Institute, your premier destination for insightful, engaging, and diverse Political News and Opinions.

    The Benjamin Franklin Institute supports free speech, the U.S. Constitution and political candidates and organizations that promote and protect both of these important features of the American Experiment.

    We are passionate about delivering high-quality, accurate, and engaging content that resonates with our readers. Sign up for our text alerts and email newsletter to stay informed.

    Latest Posts

    US Senate candidate’s implosion forces Democratic reckoning

    July 9, 2026

    Is Syria stable enough to engage with the world? | Syria’s War News

    July 9, 2026

    Must-draft players in new Yahoo College Fantasy Football leagues

    July 9, 2026

    Subscribe for Updates

    Stay informed by signing up for our free news alerts.

    Paid for by the Benjamin Franklin Institute. Not authorized by any candidate or candidate’s committee.
    • Privacy Policy
    • About us
    • Contact us

    Type above and press Enter to search. Press Esc to cancel.