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DP Jim Taylor
Optical coherence tomography (OCT)
Optical coherence tomography (OCT)

About the Project Optical coherence tomography (OCT) is a real time, non-invasive and non-contact imaging modality for translucent and transparent tissue capable of providing morphological images at the micron scale … Read More Read More

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DP Kirsten Rogde
Ideal quantum turbulence in planar Bose-Einstein condensates
Ideal quantum turbulence in planar Bose-Einstein condensates

About the Project Ideal quantum turbulence in planar Bose-Einstein condensates involves self-organisation of vortices into macroscopic Onsager vortices associated with negative temperatures. Creating and understanding fully developed quantum turbulence in … Read More Read More

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DP Kirsten Rogde
Approximating many-body quantum states using deep learning
Approximating many-body quantum states using deep learning

About the Project Description : Many-particle quantum systems cannot be simulated in practice because the size of the vectors and matrices involved are too large to fit in a computer’s … Read More Read More

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DP Kirsten Rogde
Theoretical studies of localisation of ultra-cold atoms in disordered media.
Theoretical studies of localisation of ultra-cold atoms in disordered media.

About the Project Theoretical studies of localisation of ultra-cold atoms in disordered media. The candidate should have a good mathematical grounding and be competent writing and running computer simulations. The … Read More Read More

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DP Kirsten Rogde
Rydberg quantum optics
Rydberg quantum optics

About the Project This project will develop a single-photon source emitting directed photons on demand – the holy grail for quantum communications. A dipole-allowed microwave transition of a single Rydberg … Read More Read More

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DP Kirsten Rogde
Reactive collisions
Reactive collisions

About the Project Ultracold chemistry aims at controlling chemical reactions at the quantum state level. At its heart lies the idea of placing molecules into a single rotational, vibrational, electronic, … Read More Read More

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DP Kirsten Rogde
Generate the number of photons you want!
Generate the number of photons you want!

About the Project Generate the number of photons you want! This project involves laser cooling and trapping a single caesium atom on an optical nano fibre. The atom is then … Read More Read More

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DP Mick Gibson
Spectroscopy and Modelling of Rare-Earth Ions in Quantum-Information Candidate Materials
Spectroscopy and Modelling of Rare-Earth Ions in Quantum-Information Candidate Materials

About the Project Quantum memories based on rare-earth ion dopants are arguably the best available, offering high efficiencies, multi-hour coherence times, and large bandwidth storage of entanglement. To achieve this, … Read More Read More

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DP Mary Delong
Topological materials and coupled superfluids (theory and computation)
Topological materials and coupled superfluids (theory and computation)

About the Project The rich physics of spinor quantum gases with internal coupling makes them ideal platforms for emulating fundamental physical processes and for realizing atomtronic analogs of solid-state devices. … Read More Read More

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DP Mary Khachaturian
Polaritonic enhancement of metal halide perovskite photovoltaic performance
Polaritonic enhancement of metal halide perovskite photovoltaic performance

About the Project Clean, renewable solar energy is currently most widely harnessed by silicon solar cells. Competition has emerged over the last decade in the form of metal halide perovskites … Read More Read More

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