Mysterious ‘unparticles’ may be pushing the universe apart
The ever-accelerating expansion of the universe may be driven by a mysterious form of matter called ‘unparticles’, which do not obey the Standard Model of particle physics, a new theoretical paper suggests. Scientists widely acknowledge that the universe is expanding, though the cause of that expansion remains elusive. One of the most popular proposed explanations is a mysterious entity called dark energy in the form of a cosmological constant, which leads to expansion at a rate independent of the age of the universe and the temperature of matter and radiation. However, recent astronomical observations challenge this hypothesis, prompting physicists to explore alternatives to what dark energy could be.
In a new paper, researchers analysed the idea that dark energy is instead made of a theoretical form of matter called unparticles. They found that this theory aligns better with observations than the prevalent standard cosmological model, which assumes a cosmological constant. “Observationally, discrepancies arise in the values of the universe’s expansion rate and the growth of large-scale structures between measurements,” study co-author Utkarsh Kumar, a cosmologist at Ariel University, said. “Various observations, including cosmic microwave background measurements, dimming of supernovae and many others, contribute to this tension.”
Quantities such as the Hubble constant, which determines the rate of expansion, and the so-called
S8, which contains information about the formation of large-scale structures, are not measured directly.
Instead, they are calculated from observations of the cosmic microwave background – leftover radiation from the Big Bang – and distant stars and galaxies using mathematical theories. However, different theories yield different values of these parameters from the same data, posing a huge tension in cosmology.
To address this problem, the authors of the new study, published in December 2023 in the Journal of Cosmology and Astroparticle Physics, suggest that the expansion of the universe is driven not by a cosmological constant but by unparticles, which had previously been considered in the context of particle physics. “The idea of unparticles was introduced by [theoretical physicist Howard] Georgi over a decade ago,” lead study author Ido Ben-Dayan, also of Ariel University, said. “In fundamental physics, we usually discuss fields, like the electric field, where particles are excitations of that field. In the electric field case, these are photons.” In almost all cases, Ben-Dayan added, particles are excitations with a well-defined mass and momentum.
However, “unparticles are the result of a set of fields where their excitations do not have a well-defined momentum and mass,” Ben-Dayan said. “Thus, at the macroscopic level, they behave as a fluid. A special outcome of this property is that their equation of state, describing the ratio between the pressure they exert and their energy density, depends on temperature.” This equation of state strongly resembles the equation for the cosmological constant. Moreover, the very weak interaction of unparticles with regular matter, which is predicted by all theoretical models of the substance, makes it an excellent candidate for dark energy.