{"id":628505,"date":"2026-04-25T21:23:14","date_gmt":"2026-04-25T21:23:14","guid":{"rendered":"https:\/\/www.newsbeep.com\/ca\/628505\/"},"modified":"2026-04-25T21:23:14","modified_gmt":"2026-04-25T21:23:14","slug":"quantum-physics-strangest-problem-may-hold-the-key-to-time-itself","status":"publish","type":"post","link":"https:\/\/www.newsbeep.com\/ca\/628505\/","title":{"rendered":"Quantum Physics\u2019 Strangest Problem May Hold the Key to Time Itself"},"content":{"rendered":"

\"Quantum<\/a>Quantum collapse models hint at tiny time fluctuations. Credit: FQxI\/Gabriel Fitzpatrick (2026)<\/p>\n

An FQxI cofunded study suggests hidden connections between quantum mechanics, gravity, and time.<\/p>\n

Scientists have taken a new look at one of quantum physics\u2019 strangest problems and found that the answer may reach all the way to time itself.<\/p>\n

In quantum mechanics, particles do not behave like everyday objects. Instead of existing in one clearly defined state, they can occupy several possible states at once, a phenomenon known as superposition. Physicists describe this blurry quantum behavior with a mathematical object called a \u2018wavefunction.\u2019<\/p>\n

But in the ordinary world, things do not seem to work that way. A chair is in one spot, not two. A clock shows one time, not many. Bridging that gap between the quantum world and daily experience has challenged physicists for decades.<\/p>\n

To reconcile this difference, physicists typically argue that when a quantum system interacts with a measuring device or observer, its wavefunction \u2018collapses\u2019 into a single, definite outcome.<\/p>\n

With support from the Foundational Questions Institute, FQxI, an international group of physicists has now investigated a set of unconventional approaches to this measurement problem known as \u2018quantum collapse models,\u2019 revealing that they could have significant consequences for how time behaves and how precisely it can be measured. Their findings, published in Physical Review Research, also propose a new strategy for experimentally distinguishing these models from standard quantum theory.<\/p>\n

\u201cWhat we did was to take seriously the idea that collapse models may be linked to gravity,\u201d says Nicola Bortolotti, a PhD student at the Enrico Fermi Museum and Research Centre (CREF) in Rome, Italy, who led the study. \u201cAnd then we asked a very concrete question: What does this imply for time itself?\u201d<\/p>\n

Spontaneous Collapse<\/p>\n

During the 1980s, researchers began developing quantum models in which wavefunction collapse occurs spontaneously, independent of observation or measurement. Unlike standard \u2018interpretations\u2019 of quantum mechanics, which tend to be philosophical frameworks that cannot be distinguished experimentally, these collapse models produce specific predictions that can, in principle, be tested in the lab.<\/p>\n

\u201cWhat we did was to take seriously the idea that collapse models may be linked to gravity. And then we asked a very concrete question: What does this imply for time itself?\u201d says Nicola Bortolotti.<\/p>\n

To explore this idea, Bortolotti and colleagues Catalina Curceanu, a member of FQxI and research director at the Laboratori Nazionali di Frascati of the National Institute for Nuclear Physics (INFN-LNF) in Frascati, Italy, Kristian Piscicchia, at CREF and INFN-LNF, Lajos Di\u00f3si, of the Wigner Research Center for Physics and E\u00f6tv\u00f6s Lor\u00e1nd University, in Budapest, Hungary, and Simone Manti of INFN-LNF examined two leading collapse models. One is the Di\u00f3si-Penrose model (named after FQxI members Lajos Di\u00f3si and Sir Roger Penrose), which has long proposed a connection between gravity and wavefunction collapse. The team also established, for the first time, a quantitative relationship between another model, Continuous Spontaneous Localization, and fluctuations in gravitational spacetime.<\/p>\n

The study shows that if these collapse models accurately describe nature, then time itself would carry a minute intrinsic uncertainty. This would introduce a fundamental limit on how precisely time can be measured, although the effect is extraordinarily small. \u201cOnce you do the calculation, the answer is clear and surprisingly reassuring,\u201d said Bortolotti.<\/p>\n

Importantly, this predicted uncertainty has no impact on practical timekeeping. Even the most advanced atomic clocks, now or in the foreseeable future, would remain unaffected. \u201cThe uncertainty is many orders of magnitude below anything we can currently measure, so it has no practical consequences for everyday timekeeping,\u201d says Curceanu. \u201cOur results explicitly show that modern timekeeping technologies are entirely unaffected,\u201d adds Piscicchia.<\/p>\n

Linking quantum theory and gravity<\/p>\n

For decades, physicists have been searching for a unified framework that can reconcile quantum mechanics with gravity. Each theory is remarkably successful within its own domain. Quantum mechanics governs the behavior of particles at the smallest scales, while Einstein\u2019s general theory of relativity describes gravity and the large-scale structure of the universe. However, the two frameworks treat time in fundamentally different ways. \u201cIn standard quantum mechanics, time is treated as an external, classical parameter that is not affected by the quantum system being studied,\u201d explains Curceanu. By contrast, in general relativity, time and space are dynamic and can bend and change in response to mass and energy.<\/p>\n

\u201cThe uncertainty is many orders of magnitude below anything we can currently measure, so it has no practical consequences for everyday timekeeping,\u201d says Catalina Curceanu.<\/p>\n

The new results build on the idea that quantum mechanics may be part of a deeper and more comprehensive theory. By revealing a possible link between collapse models, gravity, and the behavior of time, the work points toward previously hidden connections between these foundational aspects of physics.<\/p>\n

Curceanu also emphasized the role of FQxI in supporting unconventional research directions. \u201cThere are not many foundations in the world which are supporting research on these types of fundamental questions about the universe, space, time, and matter,\u201d says Curceanu. \u201cOur work shows that even radical ideas about quantum mechanics can be tested against precise physical measurements, and that, reassuringly, timekeeping remains one of the most stable pillars of modern physics.\u201d<\/p>\n

Reference: \u201cFundamental limits on clock precision from spacetime uncertainty in quantum collapse models\u201d by Nicola Bortolotti, Catalina Curceanu, Lajos Di\u00f3si, Simone Manti and Kristian Piscicchia, 13 November 2025, Physical Review Research.
DOI: 10.1103\/p6tj-lg8l<\/a><\/p>\n

This work was partially supported through FQxI\u2019s Consciousness in the Physical World program<\/a>.<\/p>\n

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