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Eerie Image Shows Spectacular Aftermath of a Large Star’s Death

An undated image shows a view of the orange and pink clouds that make up what remains after the explosive death of a massive star - the Vela supernova remnant. (ESO/VPHAS+ team/Cambridge Astronomical Survey Unit/Handout via Reuters)
An undated image shows a view of the orange and pink clouds that make up what remains after the explosive death of a massive star - the Vela supernova remnant. (ESO/VPHAS+ team/Cambridge Astronomical Survey Unit/Handout via Reuters)
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Eerie Image Shows Spectacular Aftermath of a Large Star’s Death

An undated image shows a view of the orange and pink clouds that make up what remains after the explosive death of a massive star - the Vela supernova remnant. (ESO/VPHAS+ team/Cambridge Astronomical Survey Unit/Handout via Reuters)
An undated image shows a view of the orange and pink clouds that make up what remains after the explosive death of a massive star - the Vela supernova remnant. (ESO/VPHAS+ team/Cambridge Astronomical Survey Unit/Handout via Reuters)

The aftermath of a large star's explosive death is seen in an image released on Monday by the European Southern Observatory, showing immense filaments of brightly shining gas that was blasted into space during the supernova.

Before exploding at the end of its life cycle, the star is believed to have had a mass at least eight times greater than our sun. It was located in our Milky Way galaxy about 800 light years from Earth in the direction of the constellation Vela. A light year is the distance light travels in a year, 5.9 trillion miles (9.5 trillion km).

The eerie image shows clouds of gas that look like pink and orange tendrils in the filters used by the astronomers, covering an expanse roughly 600 times larger than our solar system.

"The filamentary structure is the gas that was ejected from the supernova explosion, which created this nebula. We see the inside material of a star as it expands into space. When there are denser parts, some of the supernova material shocks with the surrounding gas and creates some of the filamentary structure," said Bruno Leibundgut, an astronomer affiliated with the European Southern Observatory (ESO).

The image shows the supernova remnants about 11,000 years after the explosion, Leibundgut said.

"Most of the material that shines is due to hydrogen atoms that are excited. The beauty of such images is that we can directly see what material was inside a star," Leibundgut added.

"The material that has been built up over many millions of years is now exposed and will cool down over millions of years until it eventually will form new stars. These supernovae produce many elements - calcium or iron - which we carry in our own bodies. This is a spectacular part of the path in the evolution of stars."

The star itself has been reduced in the aftermath of the supernova to an incredibly dense spinning object called a pulsar. A pulsar is a type of neutron star - one of the most compact celestial objects known to exist. This one rotates 10 times per second.

The image represented a mosaic of observations taken with a wide-field camera called OmegaCAM at the VLT Survey Telescope, hosted at the ESO's Paranal Observatory in Chile. The data for the image was collected from 2013 to 2016, the ESO said.

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India’s Monsoon Back on Track, Heatwave to Ease, Says Weather Officials 

School children use umbrellas to cover themselves from the rain as they walk to school, in New Delhi, India May 2, 2025. (Reuters)
School children use umbrellas to cover themselves from the rain as they walk to school, in New Delhi, India May 2, 2025. (Reuters)
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India’s Monsoon Back on Track, Heatwave to Ease, Says Weather Officials 

School children use umbrellas to cover themselves from the rain as they walk to school, in New Delhi, India May 2, 2025. (Reuters)
School children use umbrellas to cover themselves from the rain as they walk to school, in New Delhi, India May 2, 2025. (Reuters)

India's monsoon has revived after stalling for more than a fortnight, and rains are set to cover central parts of the country this week, bringing relief from the heatwave in the grain-growing northern plains, two senior weather officials said on Monday.

The monsoon, the lifeblood of the country's nearly $4 trillion economy, delivers nearly 70% of the rain that India needs to water farms and replenish aquifers and reservoirs.

Nearly half of India's farmland, which has no irrigation, depends on the annual June-September rains for crop growth.

The monsoon has revived after a fortnight as a favorable weather system has developed in the Bay of Bengal, which would help the monsoon to cover entire central India this week, an official of the India Meteorological Department (IMD) told Reuters.

Monsoon rains on Monday covered almost the entire western state of Maharashtra and entered into neighboring Gujarat and central state of Madhya Pradesh, the official said.

The Monsoon's onset over Kerala occurred on May 24 and quickly covered southern, northeastern and some parts of western India ahead of its usual schedule, but its progress has stalled since May 29, according to an IMD chart that tracked the monsoon's progress.

The monsoon has gained the required momentum, and heavy rainfall is likely over west coast, central and some parts of north India in next ten days, which will significantly bring down temperatures, another weather official said.

India has received 31% lower rainfall than average in the first half of June, but in the second half the country is set to receive above average rainfall, the official said.

Monsoon rains are set to progress quickly in the next few days and could cover most parts of the country before the end of June, the official said.

Summer rains usually fall in Kerala around June 1 before spreading nationwide by mid-July, allowing farmers to plant crops such as rice, corn, cotton, soybeans and sugarcane.