The proposal originated as a project to explore optical fibres as a future experimental platform for studying quantum phenomena with mesoscopic particles. While quantum states of atoms and small molecules have been extensively studied, an important and yet unachieved goal of quantum physics is to observe quantum behaviour for large object consisting of millions of atoms. And yet, such observations could bridge the gap between classical and quantum worlds, which is a holy grail of modern quantum physics. As an example, building quantum computing systems requires maintaining many particles in well-defined quantum states simultaneously.
One potential path towards this goal is to use optical levitation of such mesoscopic object, which allows to cool it optically and bring it to quantum state, and to remove the interaction with the surroundings by putting it in vacuum. We initially proposed that specialized micro-structured optical fibres which can provide a very tight optical trap for efficient optical cooling, and also allow for simpler and cleaner experimental conditions and cleaner vacuum, which would allow a step towards reaching the quantum state.
In line with the initial proposal, the action resulted in a substantial advancement of the field of optical trapping with fibres, and major milestones have been achieved. Additionally, the technical expertise acquired by the fellow on wavefront control of light to deliver controlled fibre outputs, as a part of the project, has brought additional important results for the broader optical community. The MCSA fellow has developed strong independence and both deepened and broadened his expertise in light shaping, complex media photonics, optical trapping and computation microscopy.
This work has so far resulted in 2 peer-reviewed articles, 1 conference proceedings and has been disseminated for broad audience on multiple international conferences and seminars, including invited and plenary talks (UK, France, Japan, Australia, US). We systematically acknowledged the EU funding on every occasion, and we ensured open access to the publications.