Staff Profile
Dr George Stagg
Teaching & Research Technical Officer
- Email: george.stagg@ncl.ac.uk
- Telephone: +44 (0) 191 208 5376
- Address: Herschel Building
School of Mathematics, Statistics & Physics
Newcastle University
NE1 7RU
Background
Contact: george.stagg@ncl.ac.uk
Office: Room 4.05b
Address:
Herschel BuildingSchool of Mathematics, Statistics & PhysicsNewcastle UniversityNE1 7RU
Research
Research Interests:
- Bose-Einstein condensation
- Superfluidity
- Quantum turbulence
- Vortex dynamics
- Low temperature physics
Joint work with Durham NODES:
- Discrete curvature on graphs
- The Graph Curvature Calculator
Research Software Engineering:
- Parallel MPI/OpenMP research codes
- HPC cluster administration
- GNU/Linux systems administration - e.g. Puppet
Teaching
Modules:
- MAS2502: Introduction to Computing and Problem Solving - 2018/19
Training:
- Introduction to Mathematical Typesetting with LaTeX - October 2018
- R/Matlab Refresher Sessions - October 2018
- Introduction to Linux - November 2018
Publications
- Stagg GW, Pattinson RW, Barenghi CF, Parker NG. Critical velocity for vortex nucleation in a finite-temperature Bose gas. Physical Review A 2016, 93, 023640.
- Stagg GW, Parker NG, Barenghi CF. Ultraquantum turbulence in a quenched homogeneous Bose gas. Physical Review A 2016, 94(5), 053632.
- Stagg GW, Allen AJ, Barenghi CF, Parker NG. Classical-like wakes past elliptical obstacles in atomic Bose-Einstein condensates. Journal of Physics: Conference Series 2015, 594, 012044.
- Stagg GS, Allen AJ, Parker NG, Barenghi CF. Generation and decay of two-dimensional quantum turbulence in a trapped Bose-Einstein condensate. Physical Review A 2015, 91, 013612.
- Stagg GW, Parker NG, Barenghi CF. Quantum Analogs of Classical Wakes in Bose-Einstein Condensates. Journal of Physics B: Atomic, Molecular and Optical Physics 2014, 47(9), 095304.
- Stagg GW, Parker NG, Barenghi CF. Superfluid Boundary Layer. Physical Review Letters 2017, 118, 135301.
- Griffin A, Stagg GW, Proukakis NP, Barenghi CF. Vortex scattering by impurities in a Bose-Einstein condensate. Journal of Physics B 2017, 50, 115003.