What is the minimum energy required to switch or erase an optical bit in finite time? And does the energy requirement change if the bit is quantum instead of classical? Answering these questions, which are vital to information processing with optical systems, is the goal of this project.

Optical systems have recently emerged as promising platforms for energy efficient computing. However, fundamental limits to their information processing are largely unknown. In this project, you will address this problem by experimentally quantifying energy costs for two of the most fundamental operations, namely switching and erasing an optical bit. The system you will experiment with is a state- of-the-art tunable micro-cavity in a closed-cycle cryostat. You will control the switching/erasing process by varying the laser power and/or the cavity length. Beyond quantifying energy costs, you will seek to understand fundamental trade-offs between energy efficiency, speed, and accuracy in optical operations. You will also develop methods to increase the optical nonlinearity of the system, in order to reach the quantum regime. After succeeding in this, you will assess whether and how quantum effects can modify any of the results you previously obtained. Your main focus will be on experiments, but you will closely collaborate with Christopher Jarzynski and a PhD student in his group at the University of Maryland. Together, you will develop a stochastic thermodynamic framework for optical systems across the semiclassical to quantum transition.

About the group

In the Interacting Photons group we search for new physics emerging from photon-photon interactions and noise in optical resonators. We are fascinated by emergent phenomena and novel functionalities of optical systems. Most of our group members enjoy both experiment and theory. We value an inclusive and diverse environment. We regularly interact with colleagues from very different fields and backgrounds in AMOLF and beyond. You will have extensive support from the group leader, other group members, and technical staff (software, electronics, mechanics, etc.) at AMOLF. And you will have access to state-of-the-art experimental systems that will uniquely enable you to reach the goals of this project.

More information:

https://amolf.nl/jobs/postdoc-stochastic-thermodynamics-of-information-processing-with- light?utm_source=eurosciencejobs&utm_medium=job_board&utm_campaign=apply_now_job_link