Posted on 06/29/2021 6:00:24 AM PDT by Red Badger
Artist’s impression of a neutron star-black hole merger event. (Carl Knox/OzGrav/Swinburne University)
For the first time, scientists have unambiguously confirmed the collision of a black hole and a neutron star: The fateful moment two extreme objects come together in an event so immensely powerful, its ripples across the cosmos can still be discerned a billion years later.
Amazingly enough, this astronomical discovery has now been made not once, but twice, as an international collaboration of thousands of scientists reports.
In a new study confirming this world-first observation, researchers detail the detection of gravitational waves resulting from two separate and distinct neutron star-black hole mergers – each registered by astronomers just 10 days apart in January 2020.
"It's an awesome milestone for the nascent field of gravitational-wave astronomy," says astrophysicist Rory Smith from the ARC Centre of Excellence for Gravitational Wave Discovery (OzGrav) at Monash University.
"Neutron stars merging with black holes are amongst the most extreme phenomena in the Universe. Observing these collisions opens up new avenues to learn about fundamental physics, as well as how stars are born, live, and die."
Artist's impression of gravitational waves generated by a neutron star-black hole binary. (Mark Myers/OzGrav/Swinburne University)
The virtually simultaneous discovery of the two events – called GW200105 and GW200115 – speaks to the speed with which the field of gravitational wave science is evolving.
In just half a decade since the first confirmed discovery of gravitational waves, researchers have now detected these waves from dozens of events – in total, about 50 individual instances of black holes colliding with other black holes, or neutron stars colliding with other neutron stars.
But before now, a 'mixed' collision representing the merger of a neutron star with a black hole – called an NSBH binary – had never been confirmed, although scientists have previously picked up signals that were potentially suggestive of such a neutron star-black hole collision.
Now, however, the discovery is unambiguous.
"In January 2020, the LIGO-Virgo detector network observed gravitational-wave signals from two compact binary inspirals which are consistent with neutron star-black hole binaries," researchers from the international LIGO, Virgo, and Kagra collaborations explain in the new study.
"These represent the first confident observations to date of NSBH binaries via any observational means."
VIDEO AT LINK...................
The first event, GW200105, was detected on 5 January 2020, involving a black hole (with about nine times the mass of the Sun, or 8.9 solar masses) colliding with a 1.9-solar-mass neutron star.
This collision took place about 900 million years ago, even though we've only just detected the gravitational waves rippling out from the two objects merging.
GW200115, detected on 15 January 2020, is even more ancient, occurring when a NSBH binary system coalesced around 1 billion years ago in the merger of a 6-solar-mass black hole and a 1.5-solar-mass neutron star.
"These collisions have shaken the Universe to its core and we've detected the ripples they have sent hurtling through the cosmos," says astrophysicist Susan Scott from Australian National University (ANU).
"Each collision isn't just the coming together of two massive and dense objects. It's really like Pac-Man, with a black hole swallowing its companion neutron star whole."
These binary systems have been predicted to exist for decades, but have never been observed before. Now, thanks to the detection of gravitational waves from their collisions, we know that these pairs do exist, even though many questions still remain.
"We've now seen the first examples of black holes merging with neutron stars, so we know that they're out there," says gravitational-wave astronomer Maya Fishbach from Northwestern University.
"But there's still so much we don't know about neutron stars and black holes – how small or big they can get, how fast they can spin, how they pair off into merger partners. With future gravitational wave data, we will have the statistics to answer these questions, and ultimately learn how the most extreme objects in our Universe are made."
The findings are reported in The Astrophysical Journal Letters.
https://dx.doi.org/10.3847/2041-8213/ac082e
Ping!.................
I read the headline as “... In First World Discovery.”
I blame Trump, Republicans and Global Warming/Climate Change. Minorities, Women and Children hit hardest. Oh yea...and guns, I also blame guns.
So it wasn’t just me! LOL
That picture of the event would be wildly unrealistic.
Somebody take the crayons away from that kid.
It is like looking at the Mona Lisa with wild purple and pink hair.
I thought Black Hole was banned as racist?
What about systemic racism?
Black hole could be the description of too many american cities. I am giving that name because of the politicians and not necessarily the inhabitants.
Surprised that the term “black hole” has not yet been deemed racist.
2-ball in the corner pocket.....................
The only reason it has not been deemed ‘racist’ is because the PC Police have not yet gotten past the ‘science’ 101 level of intelligence.....................
Accretionist theory would be that there was no collision.
Rather, the near infinite gravity of the singularity is sucking the star down the hole. The process has been going on for eons and the star is powerless to resist
Gravity rules
So, will this accelerate or decrees climate change?
It will raise the temperature of the Universe by 0.0000000000000001°C, so it’s ominous................
And don't even mention "black body radiation."
Outstanding!
One of the only two pieces of new fundamental science since the 1960's...
Kip Thorne Lecture
Here’s my idea for a Gravitational Wave Detector that I came up with in 1993 or so.
Develop a fairly simple satellite that can monitor the Red Shift of six or more very far off stars simultaneously, 24/7/365. These stars must be near 90° apart from each other, XYZ axis.
The Red Shift of these stars should be constant. If the Red Shift of one or more of these stars suddenly changes, then a Gravitational Wave has passed or is passing between the satellite and the star(s) in question. The magnitude of the change in Red Shift is directly proportional to the magnitude of the Gravitational Wave.
Having six points of reference will also give direction.
As Space is warped by the Gravitational Wave’s passing, the Red Shift change would follow a Bell Curve.............................
You are a shifty devil...😁
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