Its a big year for astrophysicists. In October, NASA will launch the worlds largest, most powerful observatory into space. The James Webb Space Telescope, much delayed, much redesigned, has already cost $9 billion. But when its been installed just beyond the Moons orbit, its infrared sensors will peer through interstellar gas and dust, to see deeper into space than mankind has ever been able to.

The Moon, at the speed of light, is just over a second away. The Sun is eight minutes away. As you look further into space, youre essentially looking further back in time, seeing objects not as they are, but as they were when the light that youre seeing first left them.

Just as, theoretically, you could be looking at stars in the sky that have long since died, NASA says the new telescope can look far enough to see what stars, galaxies and solar systems looked like in the first billion years after the Big Bang (which occurred over 13 billion years ago). Crucially, a specially developed on-board camera will beam images back in high resolution. Pics or it didnt happen, right?

If youve been paying attention to the heavens, or at least astronomy news, youll have noticed how much clearer our views of space have become in the last few years. Until the 1990s, images of the cosmos looked like the inside of a discotheque random pinpoints of bright light, bright blurry patches, mists of pinks, blues and purples.

Since then, space agencies and observatories have zoomed in on multicolour nebulas, starbursts, black holes, the Sun in close-up and the moons on Mars. The Hubble Telescope, launched into low-Earth orbit in 1990, has revealed the depths of the universe with better and better clarity. The New Horizons spacecraft flying by Pluto, 3 billion miles away, revealed in 2015 that the dwarf planet has a heart-shaped feature on its side.

Varun Bhalerao, assistant professor with the department of physics at IIT-Bombay and a scientist who worked on Indias first robotic telescope in 2018, says visuals are integral to the field. Astronomy, because of its nature and scale, has no control over its experiments we cant fast-forward to see how the Sun might evolve. So observation is everything.

No ones looking through telescopes to make those observations, anymore. Complex machines, often working in tandem with dozens of others, do the peering, measuring and data-collecting instead. And as theyve improved, so has the view. The visualised data bridges the gap between academic knowledge and what one would see in space. Its not unlike discovering a work of art like the Mona Lisa, and seeing a whole new world, Bhalerao says.

Those pictures have a history of changing life on Earth. Copernicuss sketches indicating that it was the Sun, not the Earth, at the centre of the universe, shook the foundations of 16th-century Europe and brought about a scientific revolution. Russian cosmonaut Yuri Gagarin, the first human in space, didnt pack a camera in his Vostok capsule in 1961. But the Apollo 8 crew, headed to the Moon in 1968, did. Their photo, Earthrise, depicting Earth peeking over the desolate lunar surface, showed us for the first time just how fragile this planet is, reminded us that it is all we have, and helped popularise the environmental movement.

SPECKS AND SPECIFICATIONS

Taking a photo in space isnt quite a point-and-shoot affair. Even on the International Space Station, orbiting only 408 km above Earths surface, the Suns too bright, shadows too stark, and everything goes by too fast theres a sunrise and sunset every 90 minutes. But visiting astronauts now get mandatory training on how to operate the dozens of on-board, always-on cameras to take the best shots of a changing Earth. As a result, theyve captured erupting volcanoes, Australias wildfires, snow melting off the Himalayas and coastlines as theyve changed over time.

For objects far, far away, such as the nearest black hole a dark something in a sea of dark nothing its a waiting game. Eight telescopes across Earth collaborated to create the 2019 image of the supermassive black hole and its shadow (the dark space in the centre, the point of no return) in the centre of the galaxy, M87. And even after the pictures were taken, it took two years to collect and process them the data was too large to transfer online.

Because everything is moving in space rotating, revolving, exploding, expanding or collapsing even familiar objects take time to capture. To shoot the icy, gritty rings on Saturn, our solar systems most photogenic inhabitant, the spacecraft Cassini spent at least a decade examining them more closely. It needed to find an angle that looked straight through the rings, and take enough shots to piece together the composite of translucent arcs that we finally saw in 2018.

For scientists like Bhalerao, the images are a way to see the world outside the numbers and calibrations that typically fill an astronomers day. For us, usually, seeing the data is enough to fill us with wonder kind of like a composer who can hear the aria in their mind using only the sheet music, he says. But its quite something to see how vast the Andromeda galaxy is, or how brightly the young stars shine in the Pillars of Creation nebula. Its a breath-taking side-effect. And it makes you wonder who we are and our relationship with the cosmos.

SEEING HEAVEN IN YOUR VIEWFINDER

1. What on Earth is a Magnetar? Its not on Earth; its in space. The little purple dot right in the centre is a dense star with the most powerful magnetic field in the universe. How magnetic? About 100 million times stronger than the most powerful magnets made by humans. We only know of 31 of these, and discovered this Magnetar, known as J1818.0-1607, last year. Its 500 years old, so probably among the youngest out there. It pulses bright and spins furiously, about 21,000 light years away. Scientists combined X-rays from the Chandra satellite telescope and infrared data from other observatories to create this composite, the first high-resolution image of J18, released on January 8, 2021.

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2. Who knew that our sun was a glowing mosaic up close? The Daniel K Inouye Solar Telescope in Hawaii, the worlds most powerful tool for observing the sun, started sending out test images only in January 2020. This is its best work, the highest-resolution image ever taken of the Sun from Earth. Those yellow bits (each as vast as the Indo-Gangetic plain), are hot plasma cells turbulently rising from inside the star. The dark borders indicate where plasma is cooling and sinking. The original image, if you printed it, would cover an area of 36,500 sq km you could literally look at it for days.

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3. A swirly side to Mars: This image was acquired a week before Christmas 2020. It looked like the red planet was getting into the festive mood too. The European Space Agencys Mars Express probe used a high-resolution stereo camera to capture what looks like a haloed angel sinking into cappuccino foam at Marss watery south pole. Notice the heart on her side? Its a dark mineral field. Mars Express has been orbiting our neighbour since 2003. This image, along with thousands of others, has helped us understand its geography better.

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4. Star trails of a local kind: What are we looking at? Earth, in fast forward. NASA astronaut Christina Koch, on board the International Space Station, took over 200 photos in a span of six minutes in October 2019, as the ISS travelled over Namibia towards the Red Sea. This resulting time-lapse composite features both natural and artificial lights. See the thin tread marks? The yellow-and-white dotted streaks are city lights. The dark orange strips are from fires in Angola and the Democratic Republic of the Congo. White splotches are lightning storms. And the arcs are from stars in space, with a few travelling satellites thrown in.

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5. A smorgasbord of sky: With the human eye, youll see, at best, only half the sky, a hemisphere oriented to where youre standing. But in December 2020, scientists compiled data from more than 1.8 billion stars to plot a 360-degree-view map of the sky. The European Space Agencys Gaia satellite drew on the colour and brightness of stars it has observed since 2013. Its a lot to take in at once. Bright areas indicate dense star clusters, dark patches occur where the stars are fewer and fainter. The bright strip is our Milky Way. Were somewhere in there.

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6. By Jove, hes stormy! Weve been looking at Jupiter, the largest planet in our solar system, since at least the 7th century BCE. By 1610 CE, Galileo had used a telescope to discover four of its largest moons; weve since counted 79. Then sharper telescopes spotted the storm larger than Earth that forms its Great Red Spot. Weve been flying past and sneaking peeks since 1973, but its only in August 2020 that the Hubble Space Telescope offered this detailed look at its atmosphere. The weather report: A new storm brewing under the Great Red Spot. Researchers are calling it Red Spot Jr. The new image also features the Jupiter moon Europa. Therell be even better views soon. The European Space Agencys Jupiter Icy Moon Explorer is due to launch in 2022, and NASAs Europa Clipper mission will follow two years later.

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7. All the space you need: In many ways, this is the image that started it all. In January 2015, NASA released to the public its highest-quality picture, an image of our neighbouring spiral galaxy, Andromeda, 2.5 million light years away. It is massive, made up of 1.5 billion pixels. To view it without zooming out, youd need 600 HD TV screens. The composite draws on photographs taken by the Hubble Telescope over three years, from more than 411 points, and has been helping scientists make precision studies of large spiral galaxies. There are 100 million stars in the image, any one of which could harbour planets that support life.

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8. One of our own: Finally, beautiful images of space from an Indian programme. When ISRO launched its Mars Orbiter Mission in 2013, there was trepidation. Only the Soviet Union, the United States and the European Space Agency had sent voyagers to Mars none had succeeded on their first attempt. But in 2014, our spacecraft entered the Red Planets orbit, making us blush with pride. On board was the Mars Colour Camera, designed to closely study the planets morphological features and atmospheric phenomena. It went to work immediately, beaming back these gorgeous shots in its first year. Over the years, the orbiter has set back some 1,000 images, enough for ISRO to fill an atlas. Weve had rare glimpses of Marss clouds and dust; the dark side of its moon, Deimos; and as recently as July 2020, its other moon Phobos. Not bad for a mission that was expected to last only six months.

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VIEW A SLIDESHOW OF MORE IMAGES HERE

9. How a star explodes and dies: The elements that make up life on Earth come from inside the furnaces of stars and the explosions that mark their deaths. Which is why researchers are fascinated by supernovas and their remnants, and are so interested in Cassiopeia A, the debris of a starburst 11,000 light years away, which possibly exploded in 1680. Because a supernova is millions of degrees hot, their glow needs X-ray vision that Earth-based telescopes cant manage. Thankfully, NASAs Chandra X-ray Observatory has been orbiting Earth since 1999. Its mirrors pick up X-rays 100 times better. Chandra made 16 pointings at Cas A between 2000 and 2010. In 2017 it released this image capturing the volume and locations of silicon (red), sulphur (yellow), calcium (green) and iron (purple). The blue veins show high-energy X-ray emission. That blue outer ring is an expanding blast wave. Hows that for spectacle?

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10. Black holes are really donuts: Black holes are not things, but places; collapsed stars or star groups with such strong gravity that they suck in everything around them, including light. Albert Einstein theorised on their existence in 1916, but astronomers only identified one in 1971. Then, in 2017, came visuals. The Event Horizon Telescope, eight radio telescopes working across international borders, observed something unusual in the centre of the galaxy Messier87, which is 55 million light years away. It looked like a bright ring, a shape that could only be formed when light itself was being bent. A black hole. It turned out to be huge about 6.5 billion times bigger than our sun. The telescopes next planned target is the centre of our own galaxy, a suspiciously dark corner long said to hold a black hole too. Who knows what well see.

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Good morning, Starshine! Scroll through the universe with the most iconic images of space - Hindustan Times