lundi 5 novembre 2018

ESA rocks space weather

ESA - European Space Agency patch.

5 November 2018

This week, to coincide with the fifteenth annual European Space Weather Week, ESA is celebrating the dynamic phenomenon of space weather.

Coronal mass ejection

We’re taking a closer look at space weather, the ever-present solar wind and the ever-changing cycles of the Sun — a star that sees 11 years pass in relative calm followed by another 11 years of immense activity, driving sunspots, solar flares, Coronal Mass Ejections and solar-particle events.

It’s difficult to comprehend the size and sheer power of our Sun — a churning ball of hot gas 4.6 billion years old and 1.3 million times larger than Earth — that for the most part remains a regular, yet distant part of our lives.

Unpredictable and temperamental

In space, however, this hotly glowing star plays a remarkable role – dominating our solar system. Unpredictable and temperamental, the Sun has made life on the inner planets of the Solar System, save one exception, impossible, due to the intense radiation combined with the colossal amounts of energetic material it blasts in every direction, creating the ever-changing conditions in space known as ‘space weather’.

Solar events

Considering all of this, how did life come to thrive on Earth? Our magnetic field protects us from the solar wind, a constant stream of electrons, protons and heavier particles – 'ions' – from the Sun, and from Coronal Mass Ejections (CMEs), the Sun’s occasional outbursts of multi-billion-tonne clouds of solar plasma into space. The most extreme events, arrivals of fast CMEs or high-speed solar wind streams, disturb our protective magnetic shield, creating geomagnetic storms.

Serious problems for modern life

These storms have the potential to cause serious problems for modern technological systems, disrupting or damaging satellites in space and the multitude of services – like navigation and telecoms – that rely on them, or blacking out power grids and radio communication and creating a radiation hazard for astronauts in space.

Watching for solar hazards

While these events can’t be stopped, advance warning of an oncoming solar storm would give spacecraft controllers and power-grid and network operators time to take protective measures.

ESA Lagrange mission animation

ESA’s planned Lagrange mission will support provision of just such advance warnings.

Watching the Sun from a unique position in space, the Lagrange satellite will allow monitoring of the potentially hazardous sunspots and high-speed solar wind streams before they come into view from Earth, and detect solar events and their propagation toward the Earth with higher accuracy than is possible today. Data from the Lagrange mission will be transmitted to the Earth and distributed into ESA’s Space Weather Service Network in near real-time to generate warnings and forecasts.

Protective measures against space weather are becoming increasingly important, as much of modern human society becomes increasingly reliant on space-based services, vulnerable to the Sun’s unpredictable outbursts.

As a result, at ESA's next Ministerial Council in 2019, space weather and the needed early warning services will be a main topic presented as part of the Agency's vision for the future in the emerging domain of space safety and security.

This week, ESA will highlight the unique phenomenon of space weather, from the science behind it and how we study it, to its effect on satellites in space and ESA’s plans for the future.

Related links:

Lagrange mission:

Space Situational Awareness:

ESA Space Weather Service Network:

Space weather and its hazards:

Space Weather Segment:

Monitoring space weather:

Space weather missions:

Proba-2 Science Centre:

ESA's SOHO home page:

Image, Videos, Text, Credits: ESA/A. Baker/NASA/Soho.


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