Antimatter has made its debut as about 100 antiprotons were successfully transported in a truck for 20 minutes around CERN, the famed particle physics laboratory located near Geneva, Switzerland. This groundbreaking demonstration marks the initial phase of a future antimatter delivery service, paving the way for scientists to transport antiprotons on demand to various research facilities across Europe for in-depth study.

“I’m thrilled that we’ve reached this milestone in transporting antimatter,” said Christian Smolla from CERN. “This achievement has required extensive efforts, marked by both challenges and triumphs.”

All matter possesses antimatter, which is theoretically identical but carries opposite charges. For instance, a positron is the antimatter counterpart of an electron. When antimatter particles meet their matter equivalents, they annihilate each other, resulting in the creation of new particles or bursts of energy. This unique property complicates both the storage and experimental study of antimatter.

Only in recent decades have researchers at CERN’s Antimatter Moderation Hall, colloquially known as the Antimatter Factory, been able to produce enough antimatter, such as antiprotons, to conduct meaningful experiments and further comprehend their unique characteristics. Ongoing experiments aim to answer why our universe predominantly consists of matter rather than antimatter.

To decelerate antiprotons, which are produced at near-light speeds, scientists employ potent magnetic fields. However, this makes it challenging to investigate the magnetic properties of the antiprotons themselves. In 2018, Smola and his team initiated the Symmetry Test in Portable Antiproton Experiment (STEP) project. This portable container utilizes a tank of liquid helium in conjunction with a strong magnetic field, enabling antiprotons to be transported to quieter settings for further study.

So far, the STEP project has successfully completed a test run on a four-kilometer ring road at the CERN campus, successfully transporting 92 antiprotons from the Antimatter Factory without compromising the cargo.

“This ensures precise measurements for years to come, as no disturbances in the hall will affect the assessments,” states Jeffrey Hungst from the ALPHA experiment, which studies antihydrogen atoms nearby at Denmark’s Aarhus University.

Looking ahead, Smola and his team aspire to extend the STEP project beyond CERN, ultimately delivering antimatter to magnetically quiet facilities across Europe. However, achieving this goal may take several years as a significant portion of CERN undergoes upgrades to the Large Hadron Collider, expected to conclude by the end of 2028.

CERN: The Hub of Particle Physics in Europe

Discover the groundbreaking research at CERN, Europe’s leading center for particle physics. Situated near the scenic lakeside city of Geneva, CERN is renowned for its pioneering work on the Large Hadron Collider and its studies on dark matter and frozen matter.