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Quantum Simulation and Large-Scale Entanglement

Developing techniques for the study of large-scale quantum simulators based on crystals of trapped atomic ions. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Quantum Control Theory

We address the challenge of creating efficient, error-resilient quantum control approaches for use in future quantum technologies. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Quantum Enabled Sensing

Development of new quantum-enabled sensors providing unrivalled performance across a range of applications. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Quantum Control with Trapped Ions

This project aims to develop novel techniques for the control of quantum systems using trapped atomic ions. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Ground-state cooling and high-fidelity detection of large ion crystals in a Penning trap for quantum simulations

The understanding of the dynamics of many-body quantum systems is one of the most challenging problems in physics today. Advancing our knowledge of these systems can lead to signifi more...

Supervisor(s): Wolf, Robert (Dr), Biercuk, Michael J. (Professor)

Advanced organic electronics

This project aims to identify design rules for next-generation organic electronics, especially organic solar cells. It will use both computational simulations and experimental work more...

Supervisor(s): Kassal, Ivan (Dr)

Computational investigation of high affinity ligand binding to proteins

Design of high-affinity ligands for protein targets using docking, molecular dynamics simulations and quantitative structure-activity relations. more...

Supervisor(s): Kuyucak, Serdar (Associate Professor)

Molecular dynamics simulations of ion channels and transporters

Understanding the function of ion channels and transporters using molecular dynamics simulations more...

Supervisor(s): Kuyucak, Serdar (Associate Professor)