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Peta molekul misterius di galaksi kita menyoroti pada teka-teki century-old
Para astronom telah menciptakan sebuah peta yang unik dari molekul misterius di galaksi kita yang bertanggung jawab untuk fitur yang membingungkan dalam cahaya dari bintang-bintang .....read more
Map of
mysterious molecules in our galaxy sheds new light on century-old puzzle
Date:
January 9, 2015
Source:
Johns Hopkins
University
Summary:
Astronomers have
created a unique map of enigmatic molecules in our galaxy that are responsible
for puzzling features in the light from stars.
...........................
By analyzing the light of
hundreds of thousands of celestial objects, Johns Hopkins astronomers from the
Sloan Digital Sky Survey (SDSS) have created a unique map of enigmatic
molecules in our galaxy that are responsible for puzzling features in the light
from stars.
The map was unveiled Jan. 8 at the 225th meeting of the American
Astronomical Society in Seattle.
"Seeing where these mysterious molecules are located is
fascinating," said Brice Ménard, a professor in the Department of Physics
and Astronomy at The Johns Hopkins University.
Gail Zasowski, another Johns Hopkins astronomer who played a key role in
the project, added, "This new map required analyzing huge amounts of data
and using the power of statistical analyses."
These puzzling features in the light from stars, which astronomers call
"Diffuse Interstellar Bands" (DIBs), have been a mystery ever since
they were discovered by astronomer Mary Lea Heger of Lick Observatory in 1922.
While analyzing the light from stars, she found unexpected lines that were
created by something existing in the interstellar space between the stars and
Earth.
Further research showed that these mysterious lines were due to a variety
of molecules. But exactly which of many thousands of possible molecules are
responsible for these features has remained a mystery for almost a century.
This new map, based on SDSS data that reveals the location of these
enigmatic molecules, was compiled from two parallel studies.
Zasowski, a postdoctoral fellow, led one team that focused on the densest
parts of our galaxy, using infrared observations that can cut through the dust
clouds and reach previously obscured stars. Johns Hopkins graduate student
Ting-Wen Lan led the other study, which used visible light to detect the
mysterious molecules located above the plane of the galaxy, where their
signatures are very weak and harder to measure.
"We do not have a full map yet, but we can already see a lot of
interesting patterns," said Ménard, who worked on both teams.
Lan's team analyzed the light from more than half a million stars,
galaxies, and quasars to detect the molecules' features in the regions well
above and beyond the Milky Way's disk. In addition, the team was able to see
the types of environments in which these molecules are more likely to be found.
Some molecules like dense regions of gas and dust, and others prefer the
lonelier spots far away from stars.
"These results will guide researchers toward the best observations and
laboratory experiments to pin down the properties and nature of these enigmatic
molecules," Lan said.
To look toward the galactic plane, hidden behind thick clouds of cosmic
dust, Zasowski's team used data from the SDSS's APOGEE survey. APOGEE
observations, which make use of infrared light, can easily see through
interstellar dust and measure the properties of stars all over the galaxy.
The team members detected some of the mysterious features in front of about
60,000 stars in a wide range of environments and were even able to measure the
motion of these molecules. "For the first time, we can see how these
mysterious molecules are moving around the galaxy," Zasowski said.
"This is extremely useful and brings in new connections between these
molecules and the dynamics of the Milky Way."
All the recent findings concerning these mysterious features paint a
picture of tough little molecules that can exist in a variety of environments,
all over the galaxy.
"Almost a hundred years after their discovery, the exact nature of
these molecules still remains a mystery, but we are getting one step closer to
understanding what they are made of," Ménard said. "The era of Big
Data in astronomy allows us to look at the universe in new ways. There is so
much to explore with these large datasets. This is just the beginning."
The researchers used data from the Sloan Digital Sky Survey. The work was
supported by National Science Foundation Grant AST-1109665 and NSF postdoctoral
fellowship AST-1203017.
Story Source:
The above story is based on materials provided by Johns
Hopkins University. Note: Materials may be edited for content and length.
