A young physicist has won an international award for his contributions to his field of study.

Dr Samuli Autti from Lancaster University has been awarded the 2023 Nicholas Kurti Science Prize by Oxford Instruments Nanoscience.

The prize of €8,000 plus a certificate and trophy is awarded yearly to a young scientist conducting excellent research in the fields of either low temperatures or high magnetic fields in Europe.

Dr Autti said: “I am grateful and honoured to receive this prize.

“However, I would like to point out that experimental physics is teamwork, and much credit goes to the numerous brilliant people I am collaborating with and have been instructed by in the past.”

The award recognises Dr Autti’s work on macroscopic quantum systems at ultra-low temperatures.

His research has made significant contributions to the field through experiments conducted at ultra-low temperatures using magnetic cooldown techniques, particularly in the study of superfluid 3He.

His work has led to seminal discoveries such as the observation of half-quantum vortices, which were theoretically proposed in 1976 and then discovered by Autti in 2016, and his observation of the Kelvin-wave cascade alongside his colleagues in 2022.

Managing director at Oxford Instruments NanoScience, Matt Martin said: “Dr Autti is a very deserving winner of this year's prize and his work is incredibly exciting.

“It is inspiring to see such innovative work produced in low-temperature physics which could make a genuine difference in the field of quantum technology.”

After receiving his PhD in 2017 from Aalto University, Finland, Dr Autti came to Lancaster with a highly-competitive Wihuri Foundation Postdoctoral Fellowship, awarded via the Council of Finnish Foundations.

Currently he holds a prestigious five-year EPSRC Open Fellowship, facilitating his work that focuses on the interfaces between classical and quantum physics.

The prize is named after Professor Nicholas Kurti (1908-1998), who is known for his distinguished work in ultra-low temperature physics at the Clarendon Laboratory, Oxford University.