Jesse Slim wins the Ehrenfest-Afanassjewa thesis award 2023

December 18, 2023

Jesse Slim carried out his PhD research in the group of Ewold Verhagen (AMOLF) and defended his thesis cum laude at Eindhoven University of Technology in March 2023.

The winner of the Ehrenfest-Afanassjewa physics thesis prize 2023 is Jesse Slim. He carried out his PhD research in the group of Ewold Verhagen (AMOLF) and defended his PhD thesis cum laude at Eindhoven University of Technology in March 2023. The Ehrenfest-Afanassjewa physics thesis prize is an initiative of the Dutch Physics Council, and named after Paul Ehrenfest and Tatiana Afanassjewa for their exceptional work in stimulating young researchers to leave the normal path in research. As the prize winner, Slim receives a bronze statue and € 5,000. The Ehrenfest-Afanassjewa physics thesis prize will be awarded to Slim during the NWO Physics conference in Veldhoven on January 23rd and 24th 2024.

Unique combination of insight, originality and impact

The PhD thesis of Slim is entitled “Orchestrating nanomechanical motion with light”. It can be found here.

In relation to Slim's PhD thesis, the jury were very impressed and remarked the following: "Slim played a truly leading role in his research project, by combining his own theoretical conceptual ideas and insights with impressive experimental research and analyses. This resulted in exceptional breakthroughs in the field of optomechanics."

Breaking away fundamental principles

Over the course of his research, Slim discovered novel and intriguing behavior in mechanical vibrations (sound) at the nanoscale by breaking away from fundamental principles that usually restrict the propagation of waves in materials.

Laser light is used as a medium to connect multiple mechanical resonators into small, highly tuneable networks. These networks can be seen as small instances of metamaterials. Slim developed a unique experimental platform and engineered high-quality on-chip nano-optomechanical resonators as well as advanced, novel optical control techniques. Slim worked with a science animator to create an explainer video for their Nature (2022) publication to show a wide audience how optomechanical control works.

Unique way

This unique way of connecting mechanical resonators allowed Slim to demonstrate highly sought-after behavior that is usually completely absent for sound, and only known for electrons in strong magnetic fields. Moreover, he discovered new mechanisms and states of matter that have fascinating application prospects in sensing and information processing – not only for sound but also for other types of waves: from optics and acoustics to superconducting circuits and cold atoms.

It was clear to the jury that Slim exceled both in written and oral communication, and initiated and maintained collaborations of great value. Besides his impressive scientific skills, he also represented the AMOLF employees in the Works Council AMOLF & NWO-I. The jury characterises Jesse as an all-round excellent researcher who, based on his curiosity, thinks outside the box and loves to build experiments to study fundamental science.

As of April 2023, Jesse has joined the Queensland Quantum Optics Laboratory at the University of Queensland (Australia) as a postdoctoral research fellow working on quantum measurement in optomechanical systems.