How would a beamed core antimatter drive appear from Earth?

AI Thread Summary
A beamed core antimatter drive generates thrust through matter-antimatter annihilation, ejecting charged pions via a magnetic nozzle. If a spacecraft utilizing this propulsion were decelerating towards Earth from just beyond the Moon's orbit, its visibility would depend on its size, speed, and trajectory. At 10% the speed of light, a small spacecraft could potentially be observed from Earth-based telescopes. The key inquiry revolves around the visibility of byproducts from the annihilation process, particularly the pion beam. Ultimately, the visibility would hinge on the specific characteristics of the annihilation products and the observational conditions.
StrangerTides
Messages
4
Reaction score
0
As I understand it, a beamed core antimatter drive would produce thrust by annihilating matter and antimatter and ejecting the results of the annihliation via a magnetic nozzle. The usable results would be charged pions, which would decay into muons, correct?

So my question is, if a spacecraft were approaching the solar system and using this type of propulsion system to decelerate (so that the nozzle is roughly aimed at Earth), would it be visible from an Earth-based telescope, and if so, how would it appear?

Thanks!
 
Physics news on Phys.org
It would depend on how big it was, where it was and how fast it was going.
 
Okay, let's just say it's small (say, the size of a small car), moving at a max of say 10% c, on a path intersecting the Earth, and decelerating, so the drive is aimed directly at the observer on the Earth. As for where it is, how about just beyond the orbit of the moon.

I guess my real question is whether anything produced by a matter-antimatter annihilation is visible, such as the pion beam itself, or any other byproducts.

Thanks.
 

Thread 'Why can't Solar panels be hemispherical, or a curved strip type?'

comparing a flat solar panel of area 2π r² and a hemisphere of the same area, the hemispherical solar panel would only occupy the area π r² of while the flat panel would occupy an entire 2π r² of land. wouldn't the hemispherical version have the same area of panel exposed to the sun, occupy less land space and can therefore increase the number of panels one land can have fitted? this would increase the power output proportionally as well. when I searched it up I wasn't satisfied with...
View full post »

Similar threads

My inspirational epic -- Enjoy, correct and criticize to your heart's content
Replies
3
Views
2K
Plasma thruster - plasma instability in magnetic nozzle
Replies
0
Views
2K
How Long Would Scifi Space Travel Really Take?
Replies
4
Views
3K
How different would matter-antimatter explosion be compared to nuclear
Replies
5
Views
5K
Advice needed about rocket performances
Replies
31
Views
3K
A How are positrons used for fusion propulsion?
Replies
3
Views
2K
Anti-Gravity from Matter-AntiMatter Repulsion
Replies
34
Views
8K
Writing: Read Only What Does Great Lakes Earth Look Like from Space?
Replies
1
Views
4K
How to interstellar travel in a very hard SF universe
Replies
28
Views
13K
I How powerful would a collider have to be to observe a sphaleron?
Replies
2
Views
3K

Hot Threads

Recent Insights

Back
Top