High-precision measurements; Macroscopic quantum mechanics; Software development;
I am an early career researcher working on non-linear quantum optics at the Institute for Quantum Physics at the University of Hamburg.
Link to academic CV Link to thesisMy research interests include:
Additionally I am interested in software development, here is my github.
Currently I am writing SImBA—a Python module to automatically infer the physical realisation of an optical realisation directly from its frequency-domain input-output transfer matrix. Above shows the produced representation for the quantum expander.
I have recently been working to bring techniques developed by the quantum control community into the realm of high-precision measurements. Specifically, methods to realise arbitrary linear quantum systems from their transfer functions. See my paper for more information. I am also working inferring the optimal n degree-of-freedom detector using the Quantum Cramér-Rao Bound.
One of my interests is how the quantum noise of next-generation gravitational wave detectors can be improved, for example using novel quantum devices such as the unstable filter in novel new configurations, such as the design I studied here.
In italics are papers that I am the first author on
In preparation
Published
