Starship Asterisk*

TheOtherBruce wrote: ↑Thu Aug 20, 2020 1:48 am

johnnydeep wrote: ↑Tue Aug 18, 2020 3:49 pm The whole subject of sub stellar mass objects is extremely interesting to me. Heck, it's ALL interesting: the range of planet-like objects, the range of star-like objects, and stellar evolution. Hmm - you never hear much about planetary evolution. Why not? I guess because we only have 8 or so examples to study, and those are all "stuck" in time at about 4.5 billion years old.

It's not just the fixed age, it's the limited variety of planet types. For a Sun-like star, the two giant planets featured in this APOD possibly are way out in the local Kuiper Belt. Around other stars, there are sun-skimmers like the Hot Jupiters. We don't have either of those in our Solar System — probably a good thing, as a Hot Jupiter spiralling in towards its final orbit well inside a Mercury-equivalent distance would likely disrupt the formation of rocky inner planets, such as <points down> this one. I wouldn't be surprised if there were even weirder planet types lurking out there that we haven't discovered -- or even theorised — yet.

johnnydeep wrote: ↑Tue Aug 18, 2020 3:49 pm The whole subject of sub stellar mass objects is extremely interesting to me. Heck, it's ALL interesting: the range of planet-like objects, the range of star-like objects, and stellar evolution. Hmm - you never hear much about planetary evolution. Why not? I guess because we only have 8 or so examples to study, and those are all "stuck" in time at about 4.5 billion years old.

johnnydeep wrote: ↑Tue Aug 18, 2020 8:02 pm

MarkBour wrote: ↑Tue Aug 18, 2020 6:41 pm This is a fantastic image, which I think will be regarded as an historic accomplishment in astronomy. Way to go, ESO! Thanks for posting it. Also, there is so much good information in the linked articles, I hope I have enough time to go read them in the next few days. Thanks, RJN !

I'm always amused by the random links to cute cat pics, like the one on the word "hoped" in the sentence "As telescope and technology improve over the next decade, it is hoped that planets more closely resembling our Earth will be directly imaged."

C0ppert0p wrote: ↑Tue Aug 18, 2020 5:51 pm
I always find it tempting to imagine that images like these are actual planetary or stellar disks. How large would the telescope need to be to actually resolve a planetary disk, about three Jupiter radii, from a distance of 95 pc, in visible or IR, light.I know the math is there, I just don't know what it is

Grizzly wrote: ↑Tue Aug 18, 2020 5:46 pm Do we know the inclination of the system relative to ours? Are we looking at it roughly from a polar view of the star?

MarkBour wrote: ↑Tue Aug 18, 2020 6:41 pm This is a fantastic image, which I think will be regarded as an historic accomplishment in astronomy. Way to go, ESO! Thanks for posting it. Also, there is so much good information in the linked articles, I hope I have enough time to go read them in the next few days. Thanks, RJN !

johnnydeep wrote: ↑Tue Aug 18, 2020 3:40 pm

Ann wrote: ↑Tue Aug 18, 2020 10:54 am

orin stepanek wrote: ↑Tue Aug 18, 2020 10:31 am TYC8998_ESO_960.jpg


To travel between stars? I'm horrified by the distance! I'm not ready to believe in interstellar travel! Nice to dream about though.

I agree wholeheartedly, Orin!

Ann

With which part(s)? Being horrified by the distance; not yet believing in the possibility of interstellar travel; or that it's still nice to dream about?

All of us on earth are already de facto interstellar travelers, blithely on our merry way away from some stars and toward others, all from the comfort of our home couches

Oh, and in preparation for tomorrow's APOD topic "How will humanity first discover extraterrestrial life", here's a great 25 minutes from the Cool Worlds channel on YouTube discussing galactic colonization:

Click to play embedded YouTube video.

C0ppert0p wrote: ↑Tue Aug 18, 2020 5:51 pm I always find it tempting to imagine that images like these are actual planetary or stellar disks. How large would the telescope need to be to actually resolve a planetary disk, about three Jupiter radii, from a distance of 95 pc, in visible or IR, light.I know the math is there, I just don't know what it is

Sa Ji Tario wrote: ↑Tue Aug 18, 2020 3:25 pm Boomer, I also suffered the same and did not depart from this passion. -
Orin, we will not travel, let the light as our messenger

Case wrote: ↑Tue Aug 18, 2020 2:21 pm So I take it that the other dots are confirmed to not be planets of that system then? Background stars or artefacts?

APOD Robot wrote: ↑Tue Aug 18, 2020 4:05 am TYC 8998-760-1: Multiple Planets around a Sun Like Star

Explanation: ... featured infrared image ...

eso2011b wrote: ... The two planets are visible as two bright dots in the centre (TYC 8998-760-1b) and bottom right (TYC 8998-760-1c) of the frame, noted by arrows. Other bright dots, which are background stars, are visible in the image as well. By taking different images at different times, the team were able to distinguish the planets from the background stars. ...

BDanielMayfield wrote: ↑Tue Aug 18, 2020 1:35 pm The system orbiting TYC 8998-760-1 is very different than ours.

There are two giant exoplanets orbiting the star. The ESO Very Large Telescope photographed the two planets using its SPHERE instrument, producing the first direct image of multiple planets orbiting a Sun-like star.[1][6]

TYC 8998-760-1 b has a mass 14 times that of Jupiter, and a radius of 3 RJ. It orbits at a distance of 162 AU (2.42×1010 km; 1.51×1010 mi), or slightly more than 5 times the Neptune-Sun distance.[5][7]

TYC 8998-760-1 c has a mass of 6 MJ, and orbits at 320 AU (4.8×1010 km; 3.0×1010 mi), or slightly more than 11 times the Neptune-Sun distance.[5]

The object labeled b might not even be a true planet. It is over the 13 Jupiter lower mass limit for brown dwarfs.

A brown dwarf is a type of substellar object that has a mass between those of the heaviest gas giant planets and the least massive stars, i.e. about 13 to 75–80 times that of Jupiter (MJ),[1][2] or about 2.5×1028 kg to 1.5×1029 kg. Below this range are the sub-brown dwarfs (sometimes referred to as rogue planets), and above it are the red dwarfs. Brown dwarfs may be fully convective, with no layers or chemical differentiation by depth.[3]

Unlike the stars in the main sequence, brown dwarfs are not massive enough to sustain nuclear fusion of ordinary hydrogen (1H) to helium in their cores. They are, however, thought to fuse deuterium (2H). If their mass is > 65 MJ they may also fuse fuse lithium (7Li).[2] It is also debated whether brown dwarfs would be better defined by their formation processes rather than by their nuclear fusion reactions.[4]

DYNAMITESERVICE wrote: ↑Tue Aug 18, 2020 3:33 pm How far away is this star?

APOD Robot wrote: ↑Tue Aug 18, 2020 4:05 am TYC 8998-760-1: Multiple Planets around a Sun Like Star

Explanation: ... the star designated TYC 8998-760-1 ...

TYC 8998-760-1 wrote: TYC 8998-760-1 is a young star, about 17 Ma old, located 310 light years away in the constellation of Musca, with a mass 1.00±0.02 times the Sun.

neufer wrote: ↑Tue Aug 18, 2020 2:02 pm

Boomer12k wrote: ↑Tue Aug 18, 2020 9:57 am

heehaw wrote: ↑Tue Aug 18, 2020 9:15 am
Our civilization has recently detected the Higgs boson, and determined its mass to be 125 GeV. My question: in our Galaxy, how many other civilizations have ever done the same? (Anyone care to speculate ? )

Maybe those guys who keep visiting???.... um... SINCE we are speculating....and it is not "scientifically proven"... you understand.

Click to play embedded YouTube video.

Ann wrote: ↑Tue Aug 18, 2020 10:54 am

orin stepanek wrote: ↑Tue Aug 18, 2020 10:31 am TYC8998_ESO_960.jpg


To travel between stars? I'm horrified by the distance! I'm not ready to believe in interstellar travel! Nice to dream about though.

I agree wholeheartedly, Orin!

Ann

BDanielMayfield wrote: ↑Tue Aug 18, 2020 3:26 pm I think that bystander may have posted an article on this (although I couldn't find it just now) on The Communications Center: Breaking Science News page, (or I may have seen it elsewhere), but I recall reading that the other dots on the image where in the background.

Case wrote: ↑Tue Aug 18, 2020 2:21 pm

So I take it that the other dots are confirmed to not be planets of that system then? Background stars or artefacts?

Very cool, ESO team!

Boomer12k wrote: ↑Tue Aug 18, 2020 9:57 am

heehaw wrote: ↑Tue Aug 18, 2020 9:15 am
Our civilization has recently detected the Higgs boson, and determined its mass to be 125 GeV. My question: in our Galaxy, how many other civilizations have ever done the same? (Anyone care to speculate ? )

Maybe those guys who keep visiting???.... um... SINCE we are speculating....and it is not "scientifically proven"... you understand.

• 'Person, woman, man, camera, TV':

• 'Person, woman, man, camera, TV':

There are two giant exoplanets orbiting the star. The ESO Very Large Telescope photographed the two planets using its SPHERE instrument, producing the first direct image of multiple planets orbiting a Sun-like star.[1][6]

TYC 8998-760-1 b has a mass 14 times that of Jupiter, and a radius of 3 RJ. It orbits at a distance of 162 AU (2.42×1010 km; 1.51×1010 mi), or slightly more than 5 times the Neptune-Sun distance.[5][7]

TYC 8998-760-1 c has a mass of 6 MJ, and orbits at 320 AU (4.8×1010 km; 3.0×1010 mi), or slightly more than 11 times the Neptune-Sun distance.[5]

A brown dwarf is a type of substellar object that has a mass between those of the heaviest gas giant planets and the least massive stars, i.e. about 13 to 75–80 times that of Jupiter (MJ),[1][2] or about 2.5×1028 kg to 1.5×1029 kg. Below this range are the sub-brown dwarfs (sometimes referred to as rogue planets), and above it are the red dwarfs. Brown dwarfs may be fully convective, with no layers or chemical differentiation by depth.[3]

Unlike the stars in the main sequence, brown dwarfs are not massive enough to sustain nuclear fusion of ordinary hydrogen (1H) to helium in their cores. They are, however, thought to fuse deuterium (2H). If their mass is > 65 MJ they may also fuse fuse lithium (7Li).[2] It is also debated whether brown dwarfs would be better defined by their formation processes rather than by their nuclear fusion reactions.[4]

orin stepanek wrote: ↑Tue Aug 18, 2020 10:31 am TYC8998_ESO_960.jpg


To travel between stars? I'm horrified by the distance! I'm not ready to believe in interstellar travel! Nice to dream about though.