Level 1 - Absolute Beginner
A new space mission called SMILE started on May 19, 2026. A rocket carried the SMILE satellite into space. The mission is from Europe and China working together.
SMILE will study the area around the Earth called the magnetosphere. This is like an invisible shield that protects our planet from the Sun. The Sun sends out a strong wind of tiny particles.
SMILE has two cameras. One camera uses X-rays to look at the magnetic shield. Another camera takes pictures of the northern lights, also called auroras.
Scientists will use pictures from SMILE to learn more about space weather. Space weather can cause problems for satellites and electricity networks on Earth.
- satellite
- a machine sent into space that travels around the Earth
- rocket
- a vehicle that carries objects into space using very powerful engines
- shield
- something that protects you from danger
- solar wind
- a flow of tiny particles that the Sun sends out into space
- magnetosphere
- the invisible area of magnetic force around the Earth that protects it from the Sun
- aurora
- colorful lights in the night sky near the North and South Poles, caused by the solar wind hitting Earth's atmosphere
- X-ray
- a type of energy that can pass through objects and is used to make images
- camera
- a tool used to take pictures or make images
Level 2 - Elementary
On May 19, 2026, the SMILE satellite launched on a Vega-C rocket from the Guiana Space Centre in French Guiana. SMILE stands for Solar wind Magnetosphere Ionosphere Link Explorer. It is a joint mission between the European Space Agency (ESA) and the Chinese Academy of Sciences (CAS).
The main goal of SMILE is to study how Earth's magnetosphere responds to the solar wind. The solar wind is a constant stream of charged particles that flows out from the Sun. Earth's magnetic field normally deflects these particles, but during strong solar storms, the interaction can become very powerful.
SMILE carries four scientific instruments. The most important are an X-ray camera that can take pictures of Earth's magnetic boundary for the first time, and an ultraviolet camera that can photograph the northern lights continuously for up to 45 hours at a time. Two other instruments measure plasma particles and the magnetic field directly.
The information collected by SMILE will help scientists predict geomagnetic storms more accurately. Strong geomagnetic storms can damage satellites, disrupt GPS systems, and even cause power blackouts. About three months after launch, the first science images are expected.
- launch
- to send a rocket or spacecraft into space
- charged particles
- tiny pieces of matter that carry an electric charge, like the protons and electrons in the solar wind
- magnetic field
- an invisible area of force around a magnetic object, such as the Earth
- deflect
- to push or turn something away from its original path
- ultraviolet
- a type of light energy that is invisible to human eyes, beyond the violet end of the visible spectrum
- plasma
- a hot, electrically charged gas, like the material that makes up the solar wind
- geomagnetic storm
- a disturbance in Earth's magnetic field caused by a powerful burst of solar wind
- blackout
- a sudden loss of electrical power over a wide area
Level 3 - Intermediate
The SMILE spacecraft lifted off at 04:52 BST on May 19, 2026 aboard a Vega-C rocket from Europe's Spaceport in Kourou, French Guiana. The first signal from the spacecraft was received by ESA's New Norcia ground station in Australia at 06:48 CEST, and the solar panels deployed successfully minutes later. SMILE is a joint science mission between the European Space Agency and the Chinese Academy of Sciences, representing one of the most significant examples of European-Chinese space collaboration in history.
The mission's scientific objective is unprecedented: to provide the first continuous, global view of how Earth's magnetosphere reacts to the solar wind. SMILE carries an X-ray camera that will produce the first X-ray images of Earth's magnetic boundary, known as the magnetopause, and an ultraviolet telescope capable of photographing both the north and south auroral ovals simultaneously for up to 45 hours. Two additional in-situ instruments measure plasma density and the local magnetic field.
After launch, SMILE will gradually raise its altitude through a series of engine burns, eventually settling into a highly elliptical orbit that takes it 121,000 km above the North Pole to collect data, before descending to 5,000 km above the South Pole to efficiently transmit the data back to Earth. First science data is expected approximately three months after launch.
The mission also carries a subtle diplomatic dimension. NASA has been legally barred from scientific cooperation with China since the 2011 Wolf Amendment, a rider to the U.S. appropriations bill that prohibits bilateral NASA-CAS activity without congressional approval. ESA's willingness to partner with China on a flagship heliophysics mission illustrates the growing divergence between European and American space policy, and demonstrates that high-quality solar physics research does not require U.S. participation to proceed.
- magnetopause
- the outer boundary of Earth's magnetosphere, where the solar wind meets and is deflected by Earth's magnetic field
- auroral oval
- a ring-shaped zone around each magnetic pole where auroras regularly appear
- in-situ
- measured directly at the location in space, rather than observed from a distance
- elliptical orbit
- a stretched, oval-shaped path around a planet, as opposed to a circular orbit
- heliophysics
- the scientific study of the Sun and its influence on the solar system, including Earth's space environment
- appropriations bill
- a law passed by a legislature that authorizes spending of government funds
- divergence
- the process of moving apart or developing in different directions
- bilateral
- involving two countries or parties working together
Level 4 - Advanced
The launch of SMILE on May 19, 2026 represents the culmination of a decade-long joint program between ESA and the Chinese Academy of Sciences and marks the first time that the global solar wind-magnetosphere system will be imaged continuously and simultaneously, rather than inferred from isolated in-situ point measurements. The spacecraft's highly elliptical orbit, ranging from 5,000 km above the South Pole at perigee to 121,000 km above the North Pole at apogee, is purpose-designed to hold the magnetopause and both auroral ovals within the field of view of the Soft X-ray Imager (SXI) and the UVI auroral camera for extended intervals of up to 40-45 hours per orbit.
The SXI instrument will exploit solar X-ray charge exchange emission, a process first confirmed by Chandra observations in 1996, to generate spatially resolved maps of the magnetosheath and magnetopause topology as a function of varying solar wind ram pressure and interplanetary magnetic field orientation. This constitutes the first global imaging of the magnetopause in X-rays, analogous to how helioseismology gave us the interior of the Sun: a non-invasive, large-scale structural view that in-situ probes can never provide. Concurrent UVI images of the auroral ovals will supply ground truth for magnetospheric models, reducing the ambiguity in predicting where magnetic reconnection is occurring in real time.
The mission also has an ionospheric science component: a Light Ion Analyser and Magnetometer (LIA-M) package will measure the in-situ plasma environment along the orbit, generating the context data needed to relate global X-ray and UV images to local field conditions. The combined dataset will be used to test and constrain a new generation of global MHD and hybrid-kinetic models of solar wind-magnetosphere-ionosphere coupling, with direct application to space weather operational forecasting.
The geopolitical dimension of SMILE is instructive. The mission's scientific merit is unimpeachable, but it also illustrates the limits of the 2011 Wolf Amendment's practical effectiveness. The Amendment has successfully prevented formal NASA-CAS bilateral activity, but has not prevented the world's largest civilian space agency from engaging with China in a partnership that will generate some of the most consequential solar-terrestrial science of the decade. As ESA and CAS both invest in increasingly capable deep-space infrastructure, the structural incentive to cooperate will intensify, regardless of the legislative posture in Washington.
- apogee
- the highest point in a spacecraft's orbit around a planetary body
- magnetosheath
- the region of turbulent, compressed solar wind plasma between the bow shock and the magnetopause
- charge exchange emission
- a physical process in which a high-charge solar wind ion captures an electron from a neutral atom, releasing an X-ray photon
- magnetic reconnection
- a fundamental plasma physics process in which opposing magnetic field lines break and rejoin, releasing large amounts of energy
