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Alicia Soderberg studies the death of stars. Often, these final moments come as violent explosions known as supernovae. They're spectacular events, but catching one as it unfolds can be tricky.
"You
have to be in the right place at the right time, and often we're not,"
says the professor in Harvard's astronomy department. "So all you can do
is do a stellar autopsy and go back and try to pick up the pieces and
try to figure out what happened."
Soderberg's autopsy involves collecting every signal her team can from the explosions: radio waves, light, X-rays. They try to put this information together in a way that makes sense. And often that's hard to do. "The data analysis itself is very detailed," she says
A few years ago, Soderberg met a graduate student named Wanda Diaz-Merced. Diaz-Merced lost her eyesight years ago, so she studies astronomy not with sight, but with sound.
"I have been able to listen to meteors passing through the atmosphere, solar storms, that is just to give you a gist," she says. The data from stars, comets and planets all sound different. "Every sound I listen from the skies, it has its own voice."
Soderberg and her team worked with Diaz to turn the deaths of stars into songs. Each signal collected in the autopsy gets its own part in the orchestra:
"The Radio gets the drums, the X-ray gets the harpsichord, and everything in between gets a different instrument, like a violin or a flute," Soderberg says. She presented the first of these songs this week at the American Astronomical Society annual meeting in National Harbor, Md. (Click the links and give them time to load)
https://soundcloud.com/nprscience/supernova-sonification-one
https://soundcloud.com/nprscience/supernova-sonification-two
When Soderberg listens to these songs, she started to hear things. Things she hadn't noticed when she looked at the data.
Each supernova sounds different, because each star dies in a different way.
"Stars can [die] by running into each other for example, like a car crash, or they can die by just running out of fuel," she says. "A lot of stars will do interesting things before they die like pulsate or spin or get overheated."
The songs map the story of the star as it explodes and expands and cools into a cloud of gas and dust.
But these aren't only deaths. These supernova explosions release enormous quantities of elements like carbon, oxygen, nitrogen. Elements we need; elements we're made of.
"I mean, supernovae fertilize the universe," Soderberg says. "We wouldn't be here if it wasn't for supernovae."
http://www.npr.org/blogs/thetwo-way/2014/01/10/261397236/dying-stars-write-their-own-swan-songs?utm_medium=Email&utm_source=DailyDigest&utm_campaign=20140111
Soderberg's autopsy involves collecting every signal her team can from the explosions: radio waves, light, X-rays. They try to put this information together in a way that makes sense. And often that's hard to do. "The data analysis itself is very detailed," she says
A few years ago, Soderberg met a graduate student named Wanda Diaz-Merced. Diaz-Merced lost her eyesight years ago, so she studies astronomy not with sight, but with sound.
"I have been able to listen to meteors passing through the atmosphere, solar storms, that is just to give you a gist," she says. The data from stars, comets and planets all sound different. "Every sound I listen from the skies, it has its own voice."
Soderberg and her team worked with Diaz to turn the deaths of stars into songs. Each signal collected in the autopsy gets its own part in the orchestra:
"The Radio gets the drums, the X-ray gets the harpsichord, and everything in between gets a different instrument, like a violin or a flute," Soderberg says. She presented the first of these songs this week at the American Astronomical Society annual meeting in National Harbor, Md. (Click the links and give them time to load)
https://soundcloud.com/nprscience/supernova-sonification-one
https://soundcloud.com/nprscience/supernova-sonification-two
Each supernova sounds different, because each star dies in a different way.
"Stars can [die] by running into each other for example, like a car crash, or they can die by just running out of fuel," she says. "A lot of stars will do interesting things before they die like pulsate or spin or get overheated."
The songs map the story of the star as it explodes and expands and cools into a cloud of gas and dust.
But these aren't only deaths. These supernova explosions release enormous quantities of elements like carbon, oxygen, nitrogen. Elements we need; elements we're made of.
"I mean, supernovae fertilize the universe," Soderberg says. "We wouldn't be here if it wasn't for supernovae."
http://www.npr.org/blogs/thetwo-way/2014/01/10/261397236/dying-stars-write-their-own-swan-songs?utm_medium=Email&utm_source=DailyDigest&utm_campaign=20140111
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