The Sun is the driving force behind our planetary system. It’s energy warms our planet, drives weather and climate patterns, and fuels the aurorae that surround our magnetic poles. The Sun also has a much grander sphere of influence beyond the orbit of the Earth, stretching into the vast space between itself and the other members of the stellar neighbourhood. The charged particles that are released from the Sun, called the solar wind, stretch out to 120 Astronomical Units, about 18 Billion Km. The bubble of the Sun’s influence is known as the Heliosphere, though it is anything but a...
Voyager 1, launched way back in 1977, is still giving us Science, far away beyond the influence of the Sun. In the past few years, the spacecraft has passed the boundary between the Solar System and the Interstellar Medium, the so called Heliopause. This has given scientists the first ever direct look at the Space between stars. Since then, Voyager has felt some interesting shock waves, which are being referred to as ‘Tsunami Waves.’ When the Sun emits a Coronal Mass Ejection, the charged particles travel through the Solar System as a pressure wave. When this wave hits the Heliopause...
Twenty Years of exoplanet research has seen incredible advances in detecting planets orbiting distant stars, as well as their size, orbit period, orbit distance, and even atmospheric composition. But the next step in understanding exoplanets is to learn about their magnetic fields. We know that many exoplanets should have magnetic fields. It makes sense, since nearly every world in our own solar system has some sort of magnetism. But for the first time, an international team of Astronomers, led by Kristina Kislyakova of the Space Research Institute of the Austrian Academy of Sciences, have discovered a way to detect magnetic fields...