Study sheds light on infant universe, origin of matter

Michigan: A new study, conducted to better understand the origin of the universe, has provided an insight into the ways in which the Standard Model of particle physics is extended to explain the cosmological excess of matter over antimatter.

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The other questions that the study provides answers to include what is dark matter; and what is the theoretical origin of an unexpected but observed symmetry in the force that binds protons and neutrons together?

In the paper titled ‘Axiogenesis,’ which is scheduled to be published in Physical Review Letters on March 17, 2020, researchers Keisuke Harigaya, Member in the School of Natural Sciences at the Institute for Advanced Study, and Raymond T Co of the University of Michigan have presented a compelling case in which the quantum chromodynamics (QCD) axion, first theorized in 1977, provides several important answers to these questions.

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“We revealed that the rotation of the QCD axion can account for the excess of matter found in the universe. We named this mechanism axiogenesis,” said Harigaya.

Infinitesimally light, the QCD axion — at least one billion times lighter than a proton — is nearly ghost-like.

Millions of these particles pass through ordinary matter every second without notice. However, the subatomic level interaction of the QCD axion can still leave detectable signals in experiments with unprecedented sensitivities.

While the QCD axion has never been directly detected, this study provides added fuel for experimentalists to hunt down the elusive particle.

“The versatility of the QCD axion in solving the mysteries of fundamental physics is truly amazing,” stated Raymond T Co.

“We are thrilled about the unexplored theoretical possibilities that this new aspect of the QCD axion can bring. More importantly, experiments may soon tell us whether the mysteries of nature truly hint towards the QCD axion,” added Raymond.

Harigaya and Co have reasoned that the QCD axion is capable of filling three missing pieces of the physics jigsaw puzzle simultaneously.

First, the QCD axion was originally proposed to explain the so-called strong CP problem — why the strong force, which binds protons and neutrons together, unexpectedly preserves a symmetry called the charge parity (CP) symmetry.

The CP symmetry is inferred from the observation that a neutron does not react with an electric field despite its charged constituents. Second, the QCD axion was found to be a good candidate for dark matter, offering what could be a major breakthrough in understanding the composition of approximately 80 per cent of the universe’s mass that has never been directly observed.

In their work on the early universe, Harigaya and Co have determined that the QCD axion can also explain the matter-antimatter asymmetry problem.

As matter and antimatter particles interact, they are mutually annihilated. In the first fraction of a second following the Big Bang, matter and antimatter existed in equal amounts.

This symmetry prevented the predominance of one type of matter over the other. Today, the universe is filled with matter, indicating that this symmetry must have been broken.

Harigaya and Co cite the QCD axion as the culprit. Kinetic energy, resulting from the motion of the QCD axion, produced additional baryons or ordinary matter.

This slight tipping of the scale in favour of matter would have had a pronounced cascade effect, paving the way for the universe as it is known today.

A greater understanding of the newly discovered dynamics of the QCD axion could potentially change the expansion history of the universe and thus inform the study of gravitational waves.

Future work on this topic could also provide further insight into other enduring questions of fundamental physics, such as the origin of the tiny neutrino mass.

“Since theoretical and experimental particle physicists, astrophysicists, and cosmologists began studying the QCD axion, great progress has been made. We hope that our work further advances these interdisciplinary research efforts,” added Harigaya.

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