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Scientists develop 3D printed vacuum system that aims to trap dark matter

Scientists develop 3D printed vacuum system that aims to trap dark matter
Credit: University of Nottingham

Using a specially designed 3D printed vacuum system, scientists have developed a way to "trap" dark matter with the aim of detecting domain walls. This will be a significant step forwards in unraveling some of the mysteries of the universe.

Scientists from the University of Nottingham's' School of Physics have created a 3D printed that they will use in a new experiment to reduce the density of gas, and then add in ultra-cold lithium atoms to try to detect dark walls. The research has been published in Physical Review D.

Professor Clare Burrage from the School of Physics is one of the lead authors on the study and explains, "Ordinary matter that the world is made from is only a tiny fraction of the contents of the universe, around 5%, the rest is either or —we can see their effects on how the universe behaves but we don't know what they are. One way people try to measure dark matter is to introduce a particle called a scalar field."

The researchers based the construction of the 3D vessels on the theory that light scalar fields, with double well potentials and direct matter couplings, undergo density driven , leading to the formation of .

"As density is lowered, defects form—this is similar to when water freezes into ice, are random and when they freeze you get a with molecules lined up at random, with some lined up one way and some another and this creates fault lines.

"Something similar happens in scalar fields as the density gets lower. You can't see these by eye but if particles pass across them it might change their trajectory These defects are dark walls and can prove the theory of scalar fields—either that these fields exist or don't," adds Burrage.

News - Scientists develop 3D printed vacuum system that aims to trap dark matter
Model parameter space when 𝜆=10−10. Credit: Physical Review D (2024). DOI: 10.1103/PhysRevD.109.123023

To detect these defects or dark walls the team have created a specially designed vacuum that they will use in a new experiment that will mimic moving from a dense environment to a less dense environment. Using the new set-up they will cool lithium atoms with laser photons to -273 °C, which is close to absolute zero. At this temperature, they take on quantum properties, which makes analysis more precise and predictable.

Lucia Hackermueller, Associate Professor in the School of Physics, led the design of the laboratory experiment. She explains, "The 3D printed vessels we are using as the have been constructed using theoretical calculations of dark walls. This has created what we believed to be the ideal shape, structure and texture to trap the dark matter.

"To successfully demonstrate that dark walls have been trapped, we will let a cold atom cloud pass through those walls. The cloud is then deflected. To cool those atoms we fire laser photons at the atoms, which reduces the energy in the atom—this is like slowing down an elephant using snowballs."

The system took the team three years to build and they expect to have results within a year.

"Whether we prove dark walls exist or not, it will be an important step forwards in our understanding of dark energy and dark matter, and an excellent example of how a well controlled lab experiment can be designed to directly measure effects that are relevant for the universe and otherwise cannot be observed," adds Hackermueller.

More information: Kate Clements et al, Detecting dark domain walls through their impact on particle trajectories in tailored ultrahigh vacuum environments, Physical Review D (2024). DOI: 10.1103/PhysRevD.109.123023

Journal information: Physical Review D

Citation: Scientists develop 3D printed vacuum system that aims to trap dark matter (2024, June 17) retrieved 22 July 2024 from https://phys.org/news/2024-06-scientists-3d-vacuum-aims-dark.html
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