A Large Area Soft X-ray Spectrometer (CLASS), a payload on-board Chandrayaan-2 Orbiter, has detected solar proton events which significantly increase the radiation exposure to humans in space. The instrument on 18 January 2022 also recorded coronal mass ejections (CMEs) leading to geomagnetic storms and lighting up the polar sky with auroras, the ISRO said.

What

  1. Such multi-point observations help us understand the propagation and its impact on different planetary systems. When the sun is active, spectacular eruptions called solar flares occur that sometimes also spew out energetic particles (called solar proton events or SPEs) into interplanetary space.
  2. Most of these are high energy protons that impact space systems and significantly increase radiation exposure to humans in space. They can cause ionisation on large scales in the earth's middle atmosphere.
  3. Many intense solar flares are accompanied by CMEs, a powerful stream of ionised material and magnetic fields, which reach the earth a few days later, leading to geomagnetic storms and lighting up the polar sky with auroras.
  4. The CLASS instrument also detected a CME event as it passed through the moon due to an M1.5 class solar flare that occurred on 18 January 2022.
  5. The CME travels at a speed of about 1,000 km/s and it takes about two-three days to reach the Earth.
  6. The signature of this event is missed by the GOES satellite, as the earth's magnetic field provides shielding from such events. However, the event was recorded by Chandrayaan-2.
  7. The CLASS payload on Chandrayaan-2 saw both the SPE and CME events pass by from two intense flares on the Sun.

About Solar flares

  1. Solar flares are classified according to their strength. The smallest ones are A-class, followed by B, C, M and X.
  2. Each letter represents a 10-fold increase in energy output. This means that an M class flare is 10 times more intense than C-class flare and 100 times intense than B-class flare.
  3. Within each letter class there is a finer scale from 1 to 9 - a M2 flare is twice the strength of M1 flare.
  4. Recently, there were two M-class solar flares. One flare (M5.5) spewed out energetic particles into interplanetary space and the other flare (M1.5) was accompanied by a CME.
  5. The SPE event was seen by NASA's Geostationary Operational Environmental Satellite (GOES) orbiting around the Earth. However, the CME event was not detected by GOES.
  6. Chandrayaan-2 Large Area Soft X-ray Spectrometer (CLASS) on-board Chandrayaan-2 Orbiter detected SPE due to an M5.5 class solar flare that occurred on 20 January 2022.

Flashback

  1. Planned to land on the moon's south pole, Chandrayaan-2 was launched on 22 July 2019. However, the lander Vikram hard-landed on 7 September 2019 crashing India's dream to become the first nation to successfully land on the lunar surface in its maiden attempt
  2. The ISRO had then said the mission achieved 98 per cent success as the orbiter continues to share data with the ground station.