Physicists charge ahead with proton discovery

Physicists charge ahead with proton discovery - Parity-violating electron scattering from the proton

A University of Adelaide physicist has assisted in a discovery which may catalyse the ability to solve some of science's biggest remaining mysteries.

Associate Professor Ross Young, in collaboration with scientists at Jefferson Lab in Virginia, has precisely measured the ‘weak charge’ of a proton for the first time.

The discovery opens doors to finding a world of potential new particles that otherwise might only be observable using extremely high-energy accelerators.

Known as the Qweak experiment, scientists measured the proton's minuscule weak force by creating a test that could detect it.

An intense beam of electrons was directed onto a target containing liquid hydrogen. These electrons have an innate property called spin, which means they can either align with or against the direction they are travelling. The electromagnetic force does not care about the spin alignment of the electron, giving rise to precisely the same scattering rate either way. However, the ‘weak force’ causes a tiny dependence on the spin orientation of the electron. Physicists calculated the protons' weak charge by measuring this dependence.

Associate Professor Young from the School of Physical Sciences said, “the measurement is an incredible experimental accomplishment, reporting a precision of better than 10 parts per billion.”.

“Achieving this precision is equivalent to testing if a coin is fair by flipping it 10 million billion times, while at the same time ensuring the conditions of the flip are identical every time.”
The measurement of the weak charge of the proton has been reported to be in excellent agreement with the theoretically predicted value. If a discrepancy with theory had been observed, this could have signified a new yet-to-be-discovered force of nature. The observed agreement consequently places stringent bounds on the existence of such new forces.

Tagged in Research News, School of Physical Sciences News, Physics News