Space Weather is an exciting sub-field inside the wider disciplines of Space and Solar Physics. “Space Weather” is a generic term most commonly used to describe the links where processes which start on the Sun drive activity in and around the Earth. Many nations are carefully considering the level of space weather risk to their critical systems. Due to the support of the New Zealand power grid owner operator my project, Solar Tsunamis, has been able to rapidly advance research around the risk posed by space weather to New Zealand infrastructure. The main focus has been around determining the “worst case” situation in an extreme Space Weather disturbance and developing potential mitigation practises.
In early May 2024 a massive sunspot grouping launched roughly 6 “solar tsunamis” towards the Earth. The arrival of the first solar tsunami triggered a “G4” geomagnetic storm, producing aurora to mid-latitudes in the UK and New Zealand. Roughly 6 hours into the storm additional solar tsunami impacts caused the storm to intensify, reaching the largest storm threshold (“G5”). During this geomagnetic storm the New Zealand electricity grid operator declared a Grid Emergency and switched circuits to reconfigure the grid in order to mitigate the space weather risk. This was the first time the New Zealand-wide mitigation strategy was employed to help protect the grid from space weather. The adoption of the measures generated international interest.
In this presentation I will discuss the space weather hazard to electrical power grids, and talk about the events around the G5 storm. While my focus is on New Zealand, my country spans the same geomagnetic latitudes as the United Kingdom, such that the findings and ideas should be relevant to your side of the world!
Biography:
Prof. Craig Rodger holds the Beverly Chair in Physics at the University of Otago. His current research interests span three different fields. One of these fields is “Space Weather” which examines the energy flows from the Sun and how it impacts the environment on and around the Earth. He is also active in the atmospheric electricity community, which focuses primarily on lightning and thunderstorms, and climate modelling community, with a particular focus on greenhouse gas emissions from transport. Amongst many previous roles, he is the current Chair of International Union of Radio Science (URSI) Commission H (Waves in Plasma) and the president of the New Zealand National Radio Science Committee and New Zealand representative at URSI. As part of his research on electron precipitation from the Van Allen radiation belts into the Earth’s atmosphere, he is the principal investigator of the Antarctic-Arctic Radiation-belt (Dynamic) Deposition – VLF Atmospheric Research Konsortium (AARDDVARK) project.