This design is based on unpublished work on QFT in noninertial reference frames. It depicts the trajectories of a doubly uniformly accelerated observer in Minkowski spacetime, where one acceleration is directed in the opposite direction to the other. Remarkably, this leads to trajectories that are strictly localised in the Minkowski coordinates! This image was chosen as the cover of my previous centre's annual report cover for 2022.

This design is inspired by the black hole scene from my favourite film "Interstellar", and coincidentally depicts the results from my paper "Quantum signatures of black hole mass superpositions". The tessellated border is reminiscent of Matthew McConaughey's voyage past the event horizon of "Gargantua", in which he is able to harness time as a temporal dimension to contact Murph and relay the so-called "quantum data" at the singularity back to Earth.

This design features on the cover of the Centre of Quantum Computation and Quantum Communication annual report. It was inspired by my research on a relativistic extension of Bohmian mechanics using a quantum optics measurement technique known as "weak values". Shown here are some relativistic particle trajectories overlaid upon the quantum-mechanical probability density.

This design is an artistic depiction of the results from my paper "Generating multi-partite entanglement from the quantum vacuum with a finite-lifetime mirror". Each of the mesh plots depicts the entanglement of formation detected by inertial observers following an interaction between a mode-selective mirror and strictly localised "diamond modes", from which the entanglement of the quantum vacuum can be inferred.