ISRO Aditya L1 Mission Explained | India's First Solar Mission Launched

ISRO has launched India's first Solar Mission. The Aditya L1 Mission.It is launched from Satish Dhawan Space Centre (SDSC), Shriharikota.

Aditya L1 Mission 

 Isro Aditya L1 Mission

The Isro Aditya L1 Mission.It has not even been 2 weeks since the historic success of Chandrayaan 3 has but once again, ISRO is going to create history. Aditya L1 mission.Today ISRO is not looking at the moon but at the sun.Aditya L1 is India's first mission to study the Sun specifically.But like Chandrayaan landed on the moon,Aditya will not land on the Sun.In fact, it will be observing the Sun from a distance.In fact, this spacecraft will be closer to the Earth than the Sun during the mission.Specifically speaking,after the launch, it will go 1.5 million km away from the Earth and will orbit from the Lagrange point L1 in a halo orbit.It will take about 4 months to reach that point and once it reaches there,It will stay there for 5 years and observe the Sun.That's why it is not just a spacecraft but also a space observatory.

What is this Lagrange Point?

Lagrange Points are those unique points in space where the gravitational force of two celestial bodies balances out.If we consider the Sun and the Earth,we get 5 Lagrange points.As you can see above where these 5 Lagrange points lie.These are the points where if we send a spacecraft,the orbital motion of the spacecraft,the centrifugal force,will be cancelled out by the gravitational forces of the Earth and the Sun.

What is the benefit of this?

Aditya L1 Mission 

We get stability.Whatever spacecraft we send to the Lagrange point,we don't have to make almost any effort to maintain it at that point.Spacecraft will be conserve fuel and with the Earth's revolution around the Sun,the spacecraft will also keep revolving.Longer missions can be carried out with this.The second benefit is continuous observation.If we take the example of Lagrange Point L1,anything that we send to L1 will be continuously in a position from where both the Earth and the Sun can be observed.And the Sun and the Earth will never be hidden in each other's shadows.Just think about it,when we send a spacecraft to a lunar orbit,like the Chandrayaan,or if we send one to Earth's orbit,by revolving around the moon,the Earth is hidden every so often.Similarly, by revolving around the Earth,the Sun will get hidden.That's why Lagrange points are so important and Aditya L1 will be placed at the L1 position.That's where it got its name,Aditya L1.The other space agencies that have sent solar observatories before this have been placed at L1.Like the Solar and Heliospheric Observatory.In short, SOHO.This was a joint mission between NASA and the European Space Agency.L1 and L2 are the most important Lagrange points because they are closest to the Earth.The famous James Webb Space Telescope has been placed at L2 point.

What will it study about the Sun?

Sun

To understand this, we need to know a little about the Sun.The Sun of our solar system its diameter is 109 times bigger than Earth's.It weighs 333,000 times more than Earth.If you want to visualize Sun's size in comparison to Earth's size,as you can see in the image below 1.3 million Earths can fit in a Sun.Just like there are different layers in the Earth,core, mantle, and crust,similarly, there are different layers in the Sun as well.There is a core in the Sun as well.Nuclear fusion reactions take place in the core,where hydrogen and helium gases are converted into energy.This energy produces sunlight and heat which we feel on the Earth as well.The core's temperature can reach up to 15 million degrees Celsius.Right outside of it is the radiative zone.70% of the Sun's radius is formed by the radiative zone.Then comes the convective zone.Approximately 30% of the Sun's radius.Here, energy is transferred through convectionthat's why it's called so.After this comes the surface of the Sunwhich we have named the Photosphere.Even though we call it a surface but in reality, the Sun doesn't have a surface like the Earth's surface.Because there are only hot gases and plasma.So, it is also called the lowest layer of the Sun's atmosphere.Here, the temperature is relatively colder,5,500° Celsius only.Above this, there is a layer of Chromosphere, where the temperature starts to rise again.It starts at 6,000° Celsius and reaches up to 20,000° Celsius as you go up.Then there is a thin layer called the Transition Region and after that comes the outermost layer of the Sun which is called the Corona.This corona has nothing to do with the coronavirus.The Corona layer contains extremely hot plasma 1-3 million degrees Celsius.why is the core of the sun so hot but the surface gets colder and the corona layer gets so hot again. This question is still a mystery for scientists.It is possible that Aditya L1's space mission will reveal some secrets here.Scientists have their own theories about the reason behind this.But for sure, no one knows the exact reason.When we see the sun from the ground,we usually see the layer of Photosphere.But when there is a solar eclipse,we see a reddish glow around the solar eclipse.That is the Chromosphere layer.And during the total solar eclipse,that layer is also hidden and only the Corona layer is visible.It forms a faint halo around the sun.Aditya L1's mission is to study the three topmost layers of the sun.Photosphere, Chromosphere, and Corona.But apart from all these,the Sun also emits solar wind.Solar wind is basically a huge wave of charged electrons and protons.When this solar wind interacts with Earth's magnetic field,we get to see the Northern Lights.This beautiful light that we get to see in countries like Sweden, Finland, and Iceland.Apart from this, the Sun emits Coronal Mass Ejections, CMEs.These are the big bursts of solar wind and magnetic fields.And then, the Sun sometimes emits solar flares,which are the intense flashes of light and energy.In many science fiction movies, solar flares are mentioned.Like in films like 2012 and Knowing,there is a horrific solar flare,which ends up destroying the world.

Main Components of Aditya L1 Mission

Aditya L1 

To measure all these things,there are 7 instruments installed on Aditya L1,which can be called the 7 payloads.First, Visible Emission Line Coronagraph,or VELC in short.It will study the Corona layer and observe the Coronal Mass Ejections.Second, Solar Ultraviolet Imaging Telescope.In short, SUIT.It is tasked with imaging the Sun's photosphere and chromosphere in the ultraviolet spectrum.Third, Solar Low Energy X-ray Spectrometer.In short, SOLEXS.And fourth, High Energy L1 Orbiting X-ray Spectrometer in short, HEL1OS.Both of them will study the X-rays emitted by the Sun.Specially, the X-rays emitted during solar flares.Fifth, Aditya Solar Wind Particle Experiment,in short, ASPEX.And the sixth, Plasma Analyzer Package for Aditya,in short, PAPA.These two will study the solar wind.The last payload is the Magnetometer MAG,which is used to measure magnetic fields.The magnetic fields that reach this L1 point.4 out of these 7 payloads will directly study the Sun and the remaining 3 payloads will take measurements around the L1 point.By now, you must have understood that to take these measurements it is necessary to get out of the Earth because the Earth's atmosphere prevents a lot of radiation, X-rays and other things from reaching the Earth.Which is good for humans but not good enough to actually study them.Talking about the other missions related to the Sun,In 2018, NASA launched the Parker Solar Probe in collaboration with the European Space Agency.Its purpose was to make direct contact with the Sun's Corona layer.Apart from this, there was a solar orbiter which was launched by NASA and ESA in 2020.All of them had the same purpose to understand the Sun better.Especially, the harmful rays that are emitted by the sun.So that is all about Isro Aditya L1 Solar Mission.

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