Skyroot Aerospace Raises $51 Million from Singapore’s GIC: Details
Skyroot Aerospace on Friday revealed that it had raised $51 millon (roughly Rs. 400 crore) from a Singapore-based investor, according to a report. The startup will reportedly use the funding to build the country’s first private space launch vehicles (SLV), and accelerate the firm’s plans to launch heavy payloads into low-Earth orbit. It is looking to start commercial satellite launches by mid-2023, and has a data and expertise sharing agreement with the Indian Space Research Organisation (ISRO), as per a report.
The Hyderabad-based startup Skyroot Aerospace said on Friday that it had raised $51 million (roughly Rs. 400 crore) from capital investment firm GIC (the Government of Singapore Investment Corporation) which led its latest round of funding, according to a report by Reuters. The firm is reportedly looking to achieve full-fledged commercial satellite launch scale within a year.
Skyroot Aerospace reportedly wants to begin commercial satellite launches by mid-2023. Its SLV is said to be created from carbon fibre and supports payloads as heavy as 800kg. The firm says it has begun to book slots for launching payloads, as per the report.
Back in June, the country’s space saw major events in privatisation initiatives. These included ISRO’s Polar Satellite Launch Vehicle (PSLV) carrying payloads of two Indian space sector startups, and the the launch of the first demand-driven satellite ordered by Tata Play, according to PTI.
An earlier study by the Centre for Development Studies and Indian Institute of Space Science and Technology had pegged India’s space economy at $ 5 billion (roughly Rs. 39,860 crore) for the 2020-21 fiscal, as per the report.
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A striking new image captured by NASA’s Hubble Space Telescope has shed light on an underexplored gatekeeper of our galactic neighbours’ achievements and tragedies. Adorned with multi-hued stars, the spherical cluster glitters amid the expanse of stars in our Milky Way galaxy. This type of globular cluster is a very dense grouping of stars — about the same mass as 100,000 suns — that orbit all around the centre of their galaxy. Stars in a cluster are typically roughly the same age, as they formed from the same collapsing gas cloud. In this new view, stars show up in temperatures indicated in red and blue colours: red for colder and blue for hotter stars.
Hubble Maps Forgotten Star Cluster ESO 591-12 to Uncover Milky Way’s Ancient Stellar Secrets
As per a report from NASA’s Hubble team, ESO 591-12 was imaged during the Hubble Missing Globular Clusters Survey—an initiative targeting 34 Milky Way globular clusters that had never been observed by the space telescope. The aim is to construct a comprehensive database of the ages, distances, and stellar populations of all the galaxy’s known globular clusters and star formations. However, it has always been tough for telescopes on Earth to pick out individual stars in these densely populated regions, so Hubble’s high resolution has done much to finally be able to track the movements of stars to unlock their histories and formation.
The ESO 591-12 data are part of an ongoing study to improve knowledge of the formation and evolution of globular clusters in the galaxy’s bulge and halo. These star clusters are cosmic fossils that have preserved cosmic conditions from the primordial universe. Their work helps build a fuller narrative of the evolution of the Milky Way and how it has changed over billions of years.
This new image is a further example of how advanced space-based observing facilities are helping astronomers to excavate the contents of the dark and dusty skeleton cloaking the Milky Way and sculpt a better understanding of not only the universe’s evolution but also that of our cosmic home.
Each one tells part of the astronomical story, and Hubble is digging out new chapters to enrich the tale, such as probing data for clusters as much as ESO 591-12, which have been mostly neglected until now. This finding adds to our knowledge of the early universe by shining a spotlight on something that was in plain sight.
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New research indicates that the most monstrously huge stars — those more than 100 times as massive as the sun — shed at least 20 times more matter before they collapse than previously thought to do so as they cool off to become black holes. These stars blow off a significant portion of their outer layers in quite powerful stellar winds over the brief but intense course of their lives, leaving behind low masses at the end. One benefit of this extreme mass loss is that it can account for observed strangeness in stars such as those in the Tarantula Nebula, providing new information on stellar evolution, black hole formation, and sources of gravitational waves.
Hurricane-like Stellar Winds Explain Extreme Mass Loss in Universe’s Most Massive Stars
As per a report from Space.com, researchers used sophisticated models and observations to learn that very massive stars give off winds so powerful they act more like hurricanes than gentle solar breezes. Their results agree very well with observations of WNh-type Wolf-Rayet stars in the Tarantula Nebula, which are hotter and more compact than would be expected by standard models. The improved models explain the very high temperatures at the surface and the stability of hydrogen, which address previous challenges.
One key subject in this study is R136a1 — the most massive known star — with a mass up to 230 times that of the sun. The researchers suggested that it either formed as a single star of around 200 solar masses or as a binary star system where the two stars had a combined mass of about 200 solar masses. In both such cases, the star must have lost a huge amount of mass early in its life, so the findings would call into question how it is that massive stars can live long enough to leave such a wreckage in the Large Magellanic Cloud.
The implications extend to black hole formation as well. More massive stellar winds erode more mass, resulting in the production of smaller black holes and decreasing the chances of creating elusive intermediate-mass black holes. This revision also enhances the matches of the model with the observed gravitational wave signal of a coalescing black hole binary.
Although the models are restricted to stars in the Tarantula Nebula, the researchers stress that in order for their findings to be considered universal, it is important to understand stars in different chemical environments as well. The results not only reshape predictions of black hole populations but may also adjust our understanding of how the most massive stars in the universe live — and die.
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