Often called "
Rigil Kentaurus" (meaning "foot of the
centaur"),
Toliman from the Arabic meaning "Grape-vine shoot" (some claim that this is the most proper name because the Greeks couldn't see it - it is only visible south of the 29th parallel) Alpha Centauri is a three star system composed of α Centauri A, α Centauri B, and the
red dwarf star α Centauri C. Of these stars, the two brightest ones (A and B) orbit each other as part of a
binary system. Each orbit takes 80.089 years and the stars are separated by 23
AU (the distance from the sun to
Uranus). Alpha Centauri A and B are the third and twenty-first brightest stars in the sky. These stars are 4.35 light years away (comparison: if the sun was 1" in
diameter, the earth would be about 9 feet away, and Alpha Centauri would be 458 miles away.)
Alpha Centauri A is very sun-like in many respects - its the same spectral class and about the same size and mass. Alpha Centauri B is a slightly dimmer and oranger in color than Alpha Centauri A. While the format here is not that great for displaying color, the color of each star is: Sun #fff3ea; Alpha Centauri A #fff5f2; Alpha Centauri B #ffe0bc;. Feel free to enter these values into the E2 Color Toy.
Alpha Centauri C is often called Proxima Centauri because it is a bit closer to earth (only 4.22 light years away). Proxima Centauri orbits the binary pair 13,000 AU away (400 times the distance between the Sun and Neptune). At this distance, astronomers are uncertain about if Proxima is part of the system and gravitationly bound to the binary pair, or if it is just passing through and will leave the system in a few million years or so. From Earth, Proxima Centauri is two degrees away from the binary pair.
Proxima Centauri is a red dwarf (M5) - this means that it is very small, quite near the fusion boundary and also cool and faint. Proxima has a surface temperature of 2700 Kelvin (less than half that of the sun) and only is 0.00006 times as bright as the sun. Being so faint and small, Proxima was not discovered until 1915. The color of Proxima Centauri is #ffcc6f.
Besides being very close stars (which make them interesting), this system is interesting because it may harbor life as we know it. There are five tests a star must pass for it to harbor life that is familiar to us.
- Maturity
The question here is is the star on the main sequence? If it isn't (and off on some side group) it means that it isn't a stable star - either a red supergiant, a variable star or white dwarf. These stars are unsuitable for life.
- Main sequence: G2
- Main sequence: K1
- Main sequence: M5
All stars in the Alpha Centauri pass this test.
Spectral type
A bit stricter than the first test, the stars must be of the right spectral type. This is a measure of the energy a star emits. The hot stars (O, B, A, and early F), burn fuel too fast and dies in a big way. While the M and late K class stars don't produce enough energy to have an appreciable habital zone around the star without bringing it dangerously close. The stars must be either late F, G, or early K class stars.
- G2 - perfect (our sun is G2)
- K1 - early K, good
- M5 - fails... far too cold
Stability
Does the star's brightness change too much - so that it would be hot one
year and freezing the next?
- Not a variable star
- Not a variable star
- Red dwarfs are prone to huge flares that may double or triple the
brightness of the star. Fail
(Some mistake Alpha Centauri as a variable star because it is a binary system - there are times when one star is obscuring the other star as seen from earth and thus appears to be variable. Neither Alpha Centauri A nor B are any more variable than our own sun) The
binary nature of this system also raises issues. The distance between A and B varies from 11 AU to 35 AU. From a planet that orbits either A or B, this means the brightness of one of the stars would change as it approaches and recedes. However, the distance from 11 AU (sun to Saturn) and 35 AU (sun to
Neptune) would not cause significant variations within the habital zone of either A or B.
Stellar Age
There must be time enough for life to develop on a planet about the star. The age of a star can be computed by looking at where it is on the main sequence and comparing this to the mass of the star. While the exact ages are not certain for minimum limit, the sun gives us a ball park of 4.6 billion years.
- 5-6 Billion years. Pass
- 5-6 Billion years. Pass
- unknown (maybe 1 billion years?). fail
More than Hydrogen
For planets and life we need carbon, nitrogen, oxygen, and iron. The sun has about 2% of its weight from these heavy elements. This can be determined from the spectra of the star or the location of the star within the galaxy (compare population I stars with population II stars).
- Metal rich. pass
- Metal rich. pass
- unknown. fail
Could earthlike planets exist?
This one, we don't know for certain. The very nature of the binary
system confuses the issues of the planetary disk. Furthermore, such
a system may cause planets to get kicked out with a
gravitational nudge.
Simulations indicate that bodies greater than 2 AU away from a star
in this system will get
ejected. This doesn't appear to be as much
of a problem as it seems - the habital zone for our solar system
is clearly within the orbit of
Mars which has a orbit at 1.5 AU.
Whatever the case, we don't know if any planets exist within this
system, however it is quite possible that small rocky planets
within the area where liquid water can exist do.
| Sun | A | B | C |
+--------+--------+--------+---------+
Color | Yellow | Yellow | Orange | Red |
Spectral Type | G2 | G2 | K1 | M5 |
Surface Temp | 5800 K | 5800 K | 5300 K | 2700 K |
Mass (solar) | 1.00 | 1.09 | 0.90 | 0.1 |
Radius (solar) | 1.00 | 1.2 | 0.8 | 0.2 |
Brightness (solar) | 1.00 | 1.54 | 0.44 | 0.00006 |
Distance (ly) | 0.00 | 4.35 | 4.35 | 4.22 |
Age (b years) | 4.6 | 5 - 6 | 5 - 6 | ~1? |
Alpha Centauri is located at right ascension 14h 39m 36s and declination
-60o 50' 2.308". It has a measurable
proper motion of -0.50332 RA and +0.483067. The radial velocity
is -26km/s (this means that the stars are heading in our direction)