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Stars Passing Close to the Sun
Centauri Dreams ^ | 1/2/15 | Paul Gilster

Posted on 01/02/2015 11:41:56 AM PST by LibWhacker

Stars Passing Close to the Sun

by Paul Gilster on January 2, 2015

Every time I mention stellar distances I’m forced to remind myself that the cosmos is anything but static. Barnard’s Star, for instance, is roughly six light years away, a red dwarf that was the target of the original Daedalus starship designers back in the 1970s. But that distance is changing. If we were a species with a longer lifetime, we could wait about eight thousand years, at which time Barnard’s Star would close to less than four light years. No star shows a larger proper motion relative to the Solar System than this one, which is approaching at about 140 kilometers per second.

The Alpha Centauri stars are the touchstone for close mission targets, but here again we could make our journey shorter with a little patience. In 28,000 years, having moved into the constellation Hydra, these stars will have closed to less than 3 light years from the Sun. Some time back, Erik Anderson discussed star motion in his highly readable Vistas of Many Worlds (Ashland Astronomy Studio, 2012), where I learned that the star Gliese 710, currently 64 light years out in the constellation Serpens, is headed squarely in our direction. Wait around for 1.3 million years or so and Gl 710 will push right through the Oort Cloud, with who knows what results in the inner system. A new paper considers these matters and tunes up the numbers on stellar encounters.

comet_outer_system

Image: Could a passing star dislodge comets from otherwise stable orbits so that they enter the inner system? Credit: NASA/JPL-Caltech).

A close pass from a star is bound to cause effects elsewhere in the Solar System, as Coryn Bailer-Jones (Max Planck Institute for Astronomy, Heidelberg) notes in his latest paper. Such an encounter can disrupt cometary orbits in the Oort, sending them into the inner system. Earth’s catalog of impact craters, which contains almost 200 known craters and doubtless should include many awaiting discovery, some of them beneath the oceans, is a reminder of what can happen. Nor should we forget that if we really drew the wild card, a close star turning supernova could have disastrous effects on surface life. So how many stars are problematic?

Bailer-Jones identifies the key candidates in this paper, assuming an Oort Cloud that extends to about 0.5 parsecs (1.6 light years), but he notes that a star passing even as close as several parsecs could produce significant cometary disruptions if the star were massive and slow enough. The author worked with 50,000 stars from the Hipparcos astrometric catalog in hopes of fine-tuning earlier studies of passing stars, but he notes that the search can’t be considered complete because radial velocities are not available for all stars and many are fainter than the Hipparcos work could detect. Further analysis will be needed using upcoming Gaia data.

But studying stars within a few tens of light years from the Solar System, Bailer-Jones finds forty that at some point were or will be within 6.4 light years of the Sun — the timeframe here extends from 20 million years in the past to 20 million years in the future. Fourteen stars, in fact, come within 3 light years of the Sun, with the closest encounter being with HIP 85605, which is currently about 16 light years away in the constellation of Hercules. The paper cites “…a 90% probability of [the star] coming between 0.04 and 0.20 pc” somewhere between 240,000 and 470,000 years from now, but Bailer Jones notes that this encounter has to be treated with caution because the astrometry may be incorrect. Future Gaia data should resolve this.

If HIP 85605 were to close to 0.04 parsecs of the Sun, it would be .13 light years out, or roughly 8200 AU, a close pass indeed. But one thing to keep in mind: Oort Cloud perturbation is not an unusual phenomenon, and the situation we are dealing with today is partially the result of encounters with stars that have occurred in the past. We have no data on the time between stellar encounters like these and the subsequent entry of comets into the inner system, making it all but impossible to link a specific passing star with a rise in the rate of Earth impacts. Bailer-Jones discusses all this on his website at the MPIA, where he notes the following:

A close encountering star is likely to perturb the Oort cloud sufficiently to increase the flux of comets entering the inner solar system. Let’s not forget, however, that this kind of perturbation is happening all the time due to the gravitational effect of the Galaxy as whole, and due to stars which [were] encountered even earlier. That is, there is a “background” of comets entering the inner solar system which we cannot necessarily associate with a particular stellar encounter. This is also because the time between an encounter and the time that comets enter the inner solar system could be many or even many tens of millions of years, much longer that than the typical time between close encounters.

Gl 710 is generally cited as the star making the closest encounter in previous studies, and Bailer-Jones sees a 90 percent probability that it passes within 0.10 to 0.44 parsecs, meaning an Oort Cloud passage in 1.3 million years. Looking into the past, the star gamma Microscopii, a G6 giant, encountered the Sun 3.8 million years ago, probably the most massive encounter within one parsec or less. Some encounters are recent: Tiny Van Maanen’s star, a white dwarf, passed near our Sun as recently as 15,000 years ago. While data from the Gaia mission will help us improve the parameters of this catalog of passing stars, Bailer-Jones believes the Gaia results will also make it possible to investigate the link between stellar encounters and impacts in a broad, statistical sense, helping us better understand the history of Earth impacts.

The paper is Bailer-Jones, “Close Encounters of the Stellar Kind,” accepted at Astronomy & Astrophysics (preprint).



TOPICS: Astronomy; Science
KEYWORDS: alphacentauri; barnardsstar; catastrophism; close; cloud; comets; encounters; ftl; gliese710; hip85605; impacts; oort; oortcloud; stars; sun; vanmaanensstar; xplanets
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To: C210N

Now that would be a great site to see.


21 posted on 01/02/2015 5:41:35 PM PST by minnesota_bound
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To: C210N
One trillion stars will “collide” with the 100 billion Milky Way stars.

After the merger, will the new galaxy lay off a billion stars?

22 posted on 01/02/2015 5:45:09 PM PST by Larry Lucido
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To: C210N; Gamecock; F15Eagle

From Wikipedia: “The galaxy product of the collision has been nicknamed Milkomeda or Milkdromeda.”

The picture makes it look like the Milky Way is going to get T-boned.

Therefore, I recommend that the resulting galaxy be named: T-Bone!


23 posted on 01/02/2015 5:52:26 PM PST by Larry Lucido
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To: LibWhacker

Reminds me of the first SF book I ever read - “The Black Star Passes” by John W. Campbell.


24 posted on 01/02/2015 5:52:33 PM PST by Some Fat Guy in L.A. (Still bitterly clinging to rational thought despite it's unfashionability)
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To: huldah1776

On the very large scale, galaxies are flying apart due to the initial Big Bang. But groups of galaxies can cluster together under the influence of their mutual gravitational attraction for one another.

Our galaxy, the Milky Way, is in such a group, called the “Local Group.” The galaxies in that group are bound together by gravity and so are not flying away from each other. In fact, the Milky Way is on a collision course with another galaxy in the Local Group called the Andromeda Galaxy. That collision will happen in about four billion years.

Nor are stars within a galaxy necessarily flying away from each other (although some do get ejected from the galaxy for reasons having nothing to do with the Big Bang) because they are bound together by their mutual gravitational attraction for one another.

The stars in the Milky Way are circling the center of the galaxy as on a giant race track, as someone else noted, but not in a precise uniform lockstep. It’s more chaotic than that. For the most part, they’re all going around the track in the same direction, but they also have their own smaller individual components of motion, some up out of the plane of the galaxy, some in toward the center, some faster some slower, etc. That motion can bring them relatively close together where gravity can stir up their Oort clouds.


25 posted on 01/02/2015 5:53:38 PM PST by LibWhacker ("Every Muslim act of terror is followed by a political act of cover-up." -Daniel Greenfield)
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To: huldah1776

Earth is moving across one of the spiral arms (far from the galactic center) like a yo-yo. Other stars are doing the same thing. Earth will approach these stars many times.
Also, when the Milky Way collides with Andromeda, there is so much emply space that few stars will actually collide, IIRC. The two galaxies will lose their spiral shape.


26 posted on 01/02/2015 6:10:43 PM PST by TStro (Better to be judged by 12 than carried by 6.)
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To: LibWhacker
some up out of the plane of the galaxy...

Although physically flawed in various ways, here is a really cool 3-minute youtube, with great music. Shows the sun on a helical path up and down thru the galactic plane. (unfortunately, the youtube creator shows the sun going towards and away from the galactic center... which it is NOT doing).

part 2, solar system's path in the milky way

part 1, just the solar system

27 posted on 01/02/2015 6:28:20 PM PST by C210N (When people fear government there is tyranny; when government fears people there is liberty)
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To: TStro; LibWhacker

Cool, thanks!


28 posted on 01/02/2015 6:28:41 PM PST by huldah1776
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To: TStro

As they get closer, do they go faster?


29 posted on 01/02/2015 6:30:49 PM PST by huldah1776
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To: LibWhacker

https://www.youtube.com/watch?v=Zr7wNQw12l

take a trip awesome


30 posted on 01/02/2015 6:44:15 PM PST by ronnie raygun (Empty head empty suit = arrogant little bastard)
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To: C210N

Thanks for that. Hadn’t seen those videos before. Very entertaining, but I saw several errors right off the bat. Googling it I found several astronomers who weren’t pleased, particularly Phil Plait (who really slammed Sadhu unmercifully for it). Too bad. Sadhu clearly has the talent to put out good videos, but he has to try harder to stick to the truth.


31 posted on 01/03/2015 1:26:51 AM PST by LibWhacker ("Every Muslim act of terror is followed by a political act of cover-up." -Daniel Greenfield)
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To: ronnie raygun

“this video does not exist”


32 posted on 01/03/2015 7:29:23 AM PST by LibWhacker ("Every Muslim act of terror is followed by a political act of cover-up." -Daniel Greenfield)
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To: LibWhacker


FWIW, we'll be passing closest to our Sun this year tonight as Earth reaches Perihelion for 2015 ...
33 posted on 01/03/2015 9:03:12 AM PST by mikrofon (Happy New Year!)
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