Around the world, astrophysicists are observing the balls of gravitational waves that travel on Earth when black holes or neutron stars meet. One of those astrophysicists was Christine Ye, a 17 -year -old student from Eastlake High School in Seattle.
You are working gravity waveswhere he watched the waves in space-time from a the interaction between the black hole and the neutron starshe earned her first place in the Regeneron Science Talent Search, a global competition.
You want astrologer He started in middle school, when he started an astronomy-themed program at a local science competition. Want to find out more? You saw a team of researchers at the University of Washington who worked with the North American Nanohertz Observatory for Gravitational Waves (NANOGrav).
Pili: Join a 17 -year -old who has experienced a strange world
At first, Ye’s job was simple: filtering piles of data from looking at a gravitational wave. But the more he looked, the more he saw himself staring at something ordinary under the radar of gravity surfers: so -called stellar corpses. neutron stars and the taste of these things is called pulsars.
“I have to spend a lot of time with NANOGrav, watching and using pulsars,” he told Space.com.
black gravity wave monitors are common foods, but devices such as Gravitational-Wave Laser Interferometer Inspection (LIGO) and the European Virgo interferometer can detect neutron stars. The problem is, neutron stars are much smaller than black holes. As a result, when pounding and interacting with each other, the waves do not have the same strength, so it is more difficult for gravity wave observers to see them. Earth.
However, you have already started looking at the data. More importantly, he began to model binary star systems – how they grow and die, transform into black holes and neutron stars that combine and form waves. He wanted to see if his comparisons could recreate the waves previously seen by astrophysicists.
One thing you can learn from neutron stars is how much potential they have. Astronomers have seen many neutron stars and many black holes, but the largest neutron stars are much smaller than the black holes seen.
This difference is called by Astrophysicists a vast expanse, and any object deposited in the deepest depths of the valley is very interesting.
When you compared the combination of neutron stars with black holes, he turned to neutron stars – something that is known to make many neutron stars. He knew that if a neutron star rotated, it could be much larger – much larger than the neutron stars we could see, that would fit directly into the universe.
Your work will be reviewed and published shortly. He looks to the future when astrophysicists and gravitational wave observers will see more than one event at a time.
Looking back on the show, Ye said he was amazed at the difference between today’s astrology and the stereotypical image of a man looking at a phone.
“Most of the work I did was to organize, and run these numbers and make all these inferences,” Ye told Space.com .
Follow us on Twitter @Spacedotcom and above Facebook.