mirrored file at http://SaturnianCosmology.Org/ 
For complete access to all the files of this collection
	see http://SaturnianCosmology.org/search.php 
==========================================================
Spaceflight Now: Breaking News
[1][home.gif] [2][news.gif] [3][schedule.gif] [4][mission.gif]
[5][features.gif] [6][anonline.gif] [7][store.gif] 

_Some new planets might be stars, researchers say_
_UNIVERSITY OF PITTSBURGH NEWS RELEASE_
Posted: October 28, 2000

Extrasolar planet
An artist's concept of extrasolar planet. Photo: Greg Bacon, STScI

More than half of the recently detected extrasolar planets appear not
to be planetary objects at all, according to a preliminary astrometric
study conducted by researchers at the University of Pittsburgh's
Allegheny Observatory, the Lunar and Planetary Institute, and the
Korea Astronomy Observatory. The study was presented at the Division
for Planetary Sciences of the American Astronomical Society
meeting, October 23-27, in Pasadena, California.

The study suggests that the companions are not planets, but brown
dwarfs (objects more massive than planets but smaller than stars),
double stars, or low-mass stars. The confusion arises because of the
inability of the radial velocity techniques, the basis of the original
announcements, to determine the masses of the companions. Radial
velocity observations cannot distinguish between a planet in an orbit
that is viewed nearly edge on from a brown dwarf or stellar companion
in an orbit that is nearly in the plane of the sky.

George Gatewood of the University of Pittsburgh's Allegheny
Observatory, Inwoo Han of the Korea Astronomy Observatory, and David
C. Black of the Lunar and Planetary Institute used astrometric data
from the European Space Agency (ESA) Hipparcos spacecraft, as well as
radial velocity data, to determine the inclination of the companion
orbital planes to the line-of-sight of the observer and thus to
determine masses for the proposed extrasolar companions.

"A striking result is the finding that orbital inclinations of the
systems studied are extremely low -- that is, the orbital planes of
these companions appear to be oriented nearly face on to the
observer," said Black. "This contradicts the assumption that the
line-of-sight angle is random in the radial velocity studies. It
suggests that radial velocity studies that have reported detection of
low-mass companions may be biased toward small inclinations in their
selection of target systems."

"Part of the problem arises because masses smaller than that of
Jupiter are very difficult to detect, thus most of the objects that
have been detected and are suspected to be planets have masses greater
than that of Jupiter, the most massive planet in our solar system,"
said Gatewood. "Until very recently, there were few known objects
between one Jupiter in mass and 80 times as much, and those are small
stars."

Now that some objects in this mass range have actually been
discovered, astronomers are as confused as everyone else about what to
call them, Gatewood said. "The answer has to do with how they form,
but that is difficult to determine. Unfortunately, some astronomers
have started calling objects less than 10 Jupiters in mass 'planets',
a sort of mystical dividing line. To be scientifically correct, we
should just call these objects 'substellar.' "

In reducing the data to determine the companion orbits, the authors
arrived at four groupings of objects ordered by increasing value of
the ratio of the estimated orbit's semi-major axis to its standard
error.

Art
Art
Art
An artist's concept of a giant gas planet forming. Photo: IAC

Nine stars are estimated to have companions with true masses of 10-15
Jupiters or less. This is slightly higher than the minimum masses
given by the radial velocity studies for these stars, but not
excessively so.

A second group of 11 stars appear to have companions in the range of
15-80 Jupiters, masses substantially higher than the radial velocity
results, which are thus likely to be brown dwarfs rather than planets.

A third group of four stars yields companion masses that are clearly
stellar, probably M dwarf stars, although statistical artifacts have
not been completely ruled out.

A final group of six will require additional astrometric observations
before companion masses and inclinations can be determined with
certainty.

An independent study by Mayor and colleagues (Halbwachs et al. 2000,
also using Hipparcos data) of systems discovered by radial velocity
searches with minimum masses in the brown dwarf range, shows a similar
strong tendency (7 of 11 objects) toward systems with very low
inclination angles.

This result obtained from combining astrometric data with the radial
velocity findings is consistent with earlier studies that have noted
that the orbital periods and eccentricities of so-called "extrasolar
planets" are distributed in a way that is statistically
indistinguishable from binary stars. This suggests that many, perhaps
most, of the systems that have been identified as having planetary
companions are indeed stellar or brown dwarf binaries.

Han, Black, and Gatewood stress that this is a preliminary result. Its
intent is to guide future observers in their attempt to provide better
data for the study of the origins of our own planetary system. Their
decision to publish the initial results is based upon the surprising
trend discovered by the study, not by the result for any individual
system. They have already begun follow up studies with astrometric
telescopic equipment at the University of Pittsburgh's Allegheny
Observatory.
_LAUNCHES_
[8]Atlas 5 rocket passes final countdown demonstration
[9]First operational flight of Japanese H-2A rocket set
[10]American-made satellite boosted to orbit for Japan
[11]Planetary Society hopes to launch solar sail this year
_ASTRONOMY_
[12]European Space Agency revives mission to Venus
[13]Chandra mission operations contract lengthened
[14]Studying the mystery of nanodiamond stardust
[15]Lockheed Martin to support NASA astrobiology research
[16]Panel: NEO search efforts need more support
[17]Going farther and faster out of this world
_HUMAN SPACEFLIGHT_
[18]NASA looks for commercial ways to resupply station
[19]Space shuttle flights off until at least September
_EARTH OBSERVATION_
[20]French Spot 5 Earth-imager ready for business
[21]New polar weather satellite passes initial testing
[22]Satellite data finds four active volcanoes in Andes
[23]Sharp maps released from space shuttle mission
_MORE NEWS_
[24]Full news index
[25]Weekly news archive
_Get e-mail updates_
Sign up for our _NewsAlert_ service and have the latest news in
astronomy and space e-mailed direct to your desktop (free of charge).
Your e-mail: ____________________
Subscribe
_Baseball caps_
_NEW!_ The NASA "Meatball" logo appears on a series of stylish
baseball caps available now from the Astronomy Now Store.
[26]U.S. STORE
[27]U.K. & WORLDWIDE STORE
_Next Launch_
Proton A Russian Proton rocket is scheduled to launch the EchoStar TV
satellite on August 20 from Baikonur Cosmodrome, Kazakhstan. Visit the
[28]Tracking Station for a full listing of upcoming launches.
[29]INDEX | [30]BREAKING NEWS | [31]LAUNCH SCHEDULE
[32]MISSION REPORT | [33]FEATURES | [34]ASTRONOMY NOW | [35]STORE
[36]ADVERTISE

© 2002 Pole Star Publications Ltd

References

1. file://localhost/index.html
2. file://localhost/news/index.html
3. file://localhost/tracking/index.html
4. file://localhost/mission/index.html
5. file://localhost/features/index.html
6. http://www.astronomynow.com/
7. http://www.astronomynowstore.com/
8. http://spaceflightnow.com/atlas/av001/020717wdr3/
9. http://spaceflightnow.com/news/n0207/17h2a/
10. http://spaceflightnow.com/news/n0207/16nstarc/
11. http://spaceflightnow.com/news/n0207/11solarsail/
12. http://spaceflightnow.com/news/n0207/17venusexpress/
13. http://spaceflightnow.com/news/n0207/17chandra/
14. http://spaceflightnow.com/news/n0207/14stardust/
15. http://spaceflightnow.com/news/n0207/14astrobio/
16. http://spaceflightnow.com/news/n0207/12neo/
17. http://spaceflightnow.com/news/n0207/12thruster/
18. http://spaceflightnow.com/news/n0207/16issresupply/
19. http://spaceflightnow.com/news/n0207/12cracks/
20. http://spaceflightnow.com/news/n0207/17spot5/
21. http://spaceflightnow.com/news/n0207/16noaa17/
22. http://spaceflightnow.com/news/n0207/15volcano/
23. http://spaceflightnow.com/news/n0207/12srtm/
24. http://spaceflightnow.com/news/
25. http://spaceflightnow.com/news/breaking_archive.html
26. file://localhost/store/clothing/meatballcaps.html
27. file://localhost/wwstore/clothing/meatballcaps.html
28. file://localhost/tracking/index.html
29. file://localhost/index.html
30. file://localhost/news/index.html
31. file://localhost/tracking/index.html
32. file://localhost/mission/index.html
33. file://localhost/features/index.html
34. http://www.astronomynow.com/
35. http://www.astronomynowstore.com/
36. file://localhost/advertise/index.html