Close Menu
TechurzTechurz
    What's Hot

    Final extension: Startup Battlefield Australia applications now close July 20

    July 7, 2026

    AI law startup Norm raises $120M, hits unicorn valuation

    July 7, 2026

    This startup pits dealerships against each other to bid on your used car

    July 7, 2026
    X (Twitter) Pinterest YouTube LinkedIn WhatsApp
    Tech Pulse
    • Final extension: Startup Battlefield Australia applications now close July 20
    • AI law startup Norm raises $120M, hits unicorn valuation
    • This startup pits dealerships against each other to bid on your used car
    • Savi’s app aims to protect consumers from realistic AI scams like kidnappers demanding ransom
    • Station F ramps up as a launchpad for Europe’s hottest AI startups
    X (Twitter) Pinterest YouTube LinkedIn WhatsApp
    TechurzTechurz
    • Home
    • Tech Pulse
    • Future Tech
    • AI Systems
    • Cyber Reality
    • Disruption Lab
    • Signals
    TechurzTechurz
    Home - AI - AI Is Designing Bizarre New Physics Experiments That Actually Work
    AI

    AI Is Designing Bizarre New Physics Experiments That Actually Work

    TechurzBy TechurzAugust 17, 2025Updated:May 10, 2026No Comments3 Mins Read
    Share Facebook Twitter Pinterest LinkedIn Tumblr Reddit Telegram Email
    AI Is Designing Bizarre New Physics Experiments That Actually Work
    Share
    Facebook Twitter LinkedIn Pinterest Email

    “LIGO is this huge thing that thousands of people have been thinking about deeply for 40 years,” said Aephraim Steinberg, an expert on quantum optics at the University of Toronto. “They’ve thought of everything they could have, and anything new [the AI] comes up with is a demonstration that it’s something thousands of people failed to do.”

    Although AI has not yet led to new discoveries in physics, it’s becoming a powerful tool across the field. Along with helping researchers to design experiments, it can find nontrivial patterns in complex data. For example, AI algorithms have gleaned symmetries of nature from the data collected at the Large Hadron Collider in Switzerland. These symmetries aren’t new—they were key to Einstein’s theories of relativity—but the AI’s finding serves as a proof of principle for what’s to come. Physicists have also used AI to find a new equation for describing the clumping of the universe’s unseen dark matter. “Humans can start learning from these solutions,” Adhikari said.

    Apart but Together

    In the classical physics that describes our everyday world, objects have well-defined properties that are independent of attempts to measure those properties: A billiard ball, for example, has a particular position and momentum at any given moment in time.

    In the quantum world, this isn’t the case. A quantum object is described by a mathematical entity called the quantum state. The best one can do is to use the state to calculate the probability that the object will be, say, at a certain location when you look for it there.

    What is more, two (or more) quantum objects can share a single quantum state. Take light, which is made of photons. These photons can be generated in pairs that are “entangled,” meaning that the two photons share a single, joint quantum state even if they fly apart. Once one of the two photons is measured, the outcome seems to instantaneously determine the properties of the other—now distant—photon.

    For decades, physicists assumed that entanglement required quantum objects to start out in the same place. But in the early 1990s, Anton Zeilinger, who would later receive the Nobel Prize in Physics for his studies of entanglement, showed that this wasn’t always true. He and his colleagues proposed an experiment that began with two unrelated pairs of entangled photons. Photons A and B were entangled with each other, as were photons C and D. The researchers then devised a clever experimental design made of crystals, beam splitters and detectors that would operate on photons B and C—one photon from each of the two entangled pairs. Through a sequence of operations, the photons B and C get detected and destroyed, but as a product, the partner particles A and D, which had not previously interacted, become entangled. This is called entanglement swapping, which is now an important building block of quantum technology

    That was the state of affairs in 2021, when Krenn’s team started designing new experiments with the aid of software they dubbed PyTheus—Py for the programming language Python, and Theus for Theseus, after the Greek hero who killed the mythical Minotaur. The team represented optical experiments using mathematical structures called graphs, which are composed of nodes connected by lines called edges. The nodes and edges represented different aspects of an experiment, such as beam splitters, the paths of photons, or whether or not two photons had interacted.

    bizarre Designing Experiments Physics work
    Share. Facebook Twitter Pinterest LinkedIn Tumblr Email
    Previous ArticleCREAM’s Role in Mitigating Kessler Syndrome Risks
    Next Article More Critical Issues Now Emerging, Report Claims
    Techurz
    • Website

    Related Posts

    Opinion

    Collecting robot training data is dirty, unglamorous work. Some AI labs are already paying XDOF to do it.

    June 17, 2026
    AI Systems

    The Future of AI Systems: 7 Architectural Shifts Driving the AI Revolution

    June 13, 2026
    Opinion

    What ClickUp’s mass layoff tells us about the future of work

    May 25, 2026
    Add A Comment
    Latest Tech Pulse

    College social app Fizz expands into grocery delivery

    September 3, 20252,290

    12 Father’s Day E-Card Sites That Are Actually Good

    June 4, 202523

    SolarSquare in talks to raise up to $60M as India’s rooftop solar market draws major VC interest

    May 23, 202622
    Stay In Touch
    • YouTube
    • WhatsApp
    • Twitter
    • Pinterest
    • LinkedIn

    Techurz helps readers stay ahead of digital change with clear, practical, future focused technology intelligence written today,searched tomorrow.

    X (Twitter) Pinterest YouTube LinkedIn WhatsApp
    Company
    • About Us
    • Contact Us
    • Our Authors / Editorial Team
    • Write For Us
    • Advertise
    Policy
    • Editorial Policy
    • Privacy Policy
    • Terms and Conditions
    • Affiliate Disclosure
    • Cookie Policy
    • Disclaimer
    • DMCA
    Explore
    • AI Systems
    • Cyber Reality
    • Future Tech
    • Disruption Lab
    • Signals
    • Tech Pulse
    • Sitemap

    Join the Techurz Brief

    The future does not arrive suddenly.
    Stay ahead with fast, sharp tech signals.

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