Skip to comments.Earth's Milky Way Neighborhood Gets More Respect
Posted on 06/04/2013 8:28:19 AM PDT by LibWhacker
Old picture: Local Arm a small "spur" of Milky Way.
New picture: Local Arm probable major branch of Perseus Arm.
CREDIT: Robert Hurt, IPAC; Bill Saxton, NRAO/AUI/NSF.
Our Solar System's Milky Way neighborhood just went upscale. We reside between two major spiral arms of our home galaxy, in a structure called the Local Arm. New research using the ultra-sharp radio vision of the National Science Foundation's Very Long Baseline Array (VLBA) indicates that the Local Arm, previously thought to be only a small spur, instead is much more like the adjacent major arms, and is likely a significant branch of one of them.
"Our new evidence suggests that the Local Arm should appear as a prominent feature of the Milky Way," said Alberto Sanna, of the Max-Planck Institute for Radio Astronomy. Sanna and his colleagues presented their findings to the American Astronomical Society's meeting in Indianapolis, Indiana.
Determining the structure of our own Galaxy has been a longstanding problem for astronomers because we are inside it. In order to map the Milky Way, scientists need to accurately measure the distances to objects within the Galaxy. Measuring cosmic distances, however, also has been a difficult task, leading to large uncertainties. The result is that, while astronomers agree that our Galaxy has a spiral structure, there are disagreements on how many arms it has and on their specific locations.
To help resolve this problem, researchers turned to the VLBA and its ability to make the most accurate measurements of positions in the sky available to astronomers. The VLBA's capabilities allowed the astronomers to use a technique that yields accurate distance measurements unambiguously through simple trigonometry.
By observing objects when Earth is on opposite sides of its orbit around the Sun, astronomers can measure the subtle shift in the object's apparent position in the sky, compared to the background of more-distant objects. This effect is called parallax, and can be demonstrated by holding your finger close to your nose and alternately closing each eye. The VLBA's ability to precisely measure very tiny shifts in apparent position allows scientists to use this trigonometric method to directly determine distances much farther from Earth than previously was possible.
The astronomers used this method to measure the distances to star-forming regions in the Milky Way where water and methanol molecules are boosting radio waves in the same fashion that a laser boosts light waves. These objects, called masers, are like lighthouses for the radio telescopes. The VLBA observations, carried out from 2008 to 2012, produced accurate distance measurements to the masers and also allowed the scientists to track their motion through space.
A striking result was an upgrade to the status of the Local Arm within which our Solar System resides. We are between two major spiral arms of the Galaxy, the Sagittarius Arm and the Perseus Arm. The Sagittarius Arm is closer to the Galactic center and the Perseus Arm is farther out in the Galaxy. The Local Arm previously was thought to be a minor structure, a "spur" between the two longer arms. Details of this finding were published in the Astrophysical Journal by Xu Ye and collaborators.
Trigonometric Parallax method determines distance to star or other object
CREDIT: Bill Saxton, NRAO/AUI/NSF
"Based on both the distances and the space motions we measured, our Local Arm is not a spur. It is a major structure, maybe a branch of the Perseus Arm, or possibly an independent arm segment," Sanna said.
The scientists also presented new details about the distribution of star formation in the Perseus Arm, and about the more-distant Outer Arm, which encompasses a warp in our Galaxy.
The new observations are part of an ongoing project called the Bar and Spiral Structure Legacy (BeSSeL) survey, a major effort to map the Milky Way using the VLBA. The acronym honors Friedrich Wilhelm Bessel, the German astronomer who made the first accurate measurement of a star's parallax in 1838.
The VLBA, dedicated in 1993, uses ten, 25-meter-diameter dish antennas distributed from Hawaii to St. Croix in the Caribbean. It is operated from the NRAO's Domenici Science Operations Center in Socorro, NM. All ten antennas work together as a single telescope with the greatest resolving power available to astronomy. This unique capability has produced landmark contributions to numerous scientific fields, ranging from Earth tectonics, climate research, and spacecraft navigation, to cosmology.
Cosmic Gerrymandering ping?
He is awesome.
I guess we aren't nearly so unfashionable now, ha!
OK. Don’t get me wrong - I’m a big fan of astronomy/space exploration. I wanted to be a “rocket scientist” when I was a boy watching the Apollo missions... Partly the reason I’m an engineer today.
BUT - I can’t imagine what this gets us. I can only imagine how much this cost...
maybe we can get interstellar pizza delivery to this neighborhood now...
So, if you cannot understand that there is something in man which responds to the challenge of this mountain and goes out to meet it, that the struggle is the struggle of life itself upward and forever upward, then you wont see why we go...”
Yes, believe me, I understand, but my point is - That’s fine, unless you are using MY money to pursue YOUR struggle... I want a return on the investment. (So did Queen Isabella, etc.)
There are a great many things I don’t want my money used for; clearly that could be said of everyone, and it is extremely unlikely that you could find two people anywhere that would reach total agreement. One of the marvels of science is that the ROE may be unknown, but we as a society have decided that the value of knowing more about the universe is justified by the cost, simply “because it’s there.” You mentioned the Apollo missions - do you feel the result of that exploration was worth the result? Many don’t.
I do. Lots of technology and management techniques came from Apollo - hard benefits.
It is my honest question - “What do we get from knowing our arm is a major arm of the galaxy as opposed to a minor one?” I hope someone can tell me. But I’m not hopeful.
I don’t even care if it’s something minor, and doesn’t pay for itself. I just want to know why it’s a big deal.