Quantum Computing for Lattice Field Theory and High-Energy Physics

Session

Invited Speakers and Contributions

25 Mar 2025, 14:55

National Oceanography Centre, University of Southampton

20. TBD

Dr Dorota Maria Grabowska (University of Washington (US))

25/03/2025, 14:55

21. Real-time scattering processes with continuous-variable quantum computers

Simon Jonathan Williams (Institute of Particle Physics Phenomenology, University of Durham)

25/03/2025, 15:30

In this talk, I will present a framework for simulating the real-time dynamics of quantum field theories (QFTs) using continuous-variable quantum computing (CVQC). Focusing on (1+1)-dimensional phi4 scalar field theory, the approach employs the Hamiltonian formalism to map the theory onto a spatial lattice, with fields represented as quantum harmonic oscillators. Measurement-based quantum...

22. Investigating solving optimization problems on a circuit based quantum computer

Dr Craig McNeile (Plymouth University)

25/03/2025, 15:50

We present a status report of our work on developing algorithms to use circuit based quantum computers to solve Quadratic Unconstrained Binary Optimization (QUBO) problems. The QUBO problems are from two practical use cases. The first example is the optimal placement of wind turbines within a windfarm to maximize the power production (arXiv:2312.13123). The second QUBO problem we investigated...

23. Quantum machine learning in particle physics

Marcin Jastrzebski (UCL)

25/03/2025, 16:10

I provide an overview of quantum machine learning and its possible applications to experimental particle physics analysis tasks, highlighting work done by my research group. I cover reconstruction, anomaly detection, image processing, kernel methods and geometric learning.

24. Quantum inspired application into battery cell manufacturing

Dr Biswaranjan Senapati (University of Arkansas)

25/03/2025, 16:30