Mixing
Could you track small particles in space and could you control their position with lasers or reflected light?
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If you released a large amount of small but precise particles (the size of glitter or confetti) is space, between a group of cube sats.
Could you track the particles with cameras and/or lasers?
And could you move the particles using lasers or light reflected at the particle to push them in different directions?
I am interested in knowing if you could track a cloud of small particles to measure the effect of gravity, solar winds, and magnetic fields on them in space, but also push the particles back into position with lasers or reflected light.
cubesat astrodynamics light-sail
asked Jan 9 at 4:36
user802599user802599
29514
$endgroup$
add a comment |
$begingroup$
If you released a large amount of small but precise particles (the size of glitter or confetti) is space, between a group of cube sats.
Could you track the particles with cameras and/or lasers?
And could you move the particles using lasers or light reflected at the particle to push them in different directions?
I am interested in knowing if you could track a cloud of small particles to measure the effect of gravity, solar winds, and magnetic fields on them in space, but also push the particles back into position with lasers or reflected light.
cubesat astrodynamics light-sail
asked Jan 9 at 4:36
user802599user802599
29514
$endgroup$
$begingroup$
The anonymous and poorly-informed "primarily opinion based" close voter has struck again!
$endgroup$
– uhoh
Jan 9 at 5:17
add a comment |
$begingroup$
If you released a large amount of small but precise particles (the size of glitter or confetti) is space, between a group of cube sats.
Could you track the particles with cameras and/or lasers?
And could you move the particles using lasers or light reflected at the particle to push them in different directions?
I am interested in knowing if you could track a cloud of small particles to measure the effect of gravity, solar winds, and magnetic fields on them in space, but also push the particles back into position with lasers or reflected light.
cubesat astrodynamics light-sail
asked Jan 9 at 4:36
user802599user802599
29514
$endgroup$
If you released a large amount of small but precise particles (the size of glitter or confetti) is space, between a group of cube sats.
Could you track the particles with cameras and/or lasers?
And could you move the particles using lasers or light reflected at the particle to push them in different directions?
I am interested in knowing if you could track a cloud of small particles to measure the effect of gravity, solar winds, and magnetic fields on them in space, but also push the particles back into position with lasers or reflected light.
cubesat astrodynamics light-sail
cubesat astrodynamics light-sail
asked Jan 9 at 4:36
user802599user802599
29514
asked Jan 9 at 4:36
user802599user802599
29514
asked Jan 9 at 4:36
user802599user802599
29514
asked Jan 9 at 4:36
user802599user802599
29514
asked Jan 9 at 4:36
user802599user802599
29514
29514
$begingroup$
The anonymous and poorly-informed "primarily opinion based" close voter has struck again!
$endgroup$
– uhoh
Jan 9 at 5:17
add a comment |
$begingroup$
The anonymous and poorly-informed "primarily opinion based" close voter has struck again!
$endgroup$
– uhoh
Jan 9 at 5:17
$begingroup$
The anonymous and poorly-informed "primarily opinion based" close voter has struck again!
$endgroup$
– uhoh
Jan 9 at 5:17
$begingroup$
The anonymous and poorly-informed "primarily opinion based" close voter has struck again!
$endgroup$
– uhoh
Jan 9 at 5:17
add a comment |
1 Answer
1
active
oldest
votes
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NASA JPL optical design team, including Scott Basinger and Mayer Rud and co-investigator Grover Swartzlander at the Rochester Institute of Technology Center for Imaging Science think so! They call them "orbital rainbows" when used as distributed mirrors for a giant telescope.
- JPL: Glitter Cloud May Serve as Space Mirror
- YouTube: Orbiting Rainbows: A Space Telescope Mirror Concept
The whole concept is described here Orbiting Rainbows: Optical Manipulation of Aerosols and the beginnings of Future Space Construction:
which I found linked in the NASA.gov page Orbiting Rainbows along with the image below:
From JPL's Orbiting Rainbows Simulation
answered Jan 9 at 5:15
uhohuhoh
36.2k18128454
$endgroup$
$begingroup$
The report is over 100 pages long and so I'm not sure which section to quote. If you have any specific areas you'd like addressed in more detail please note them here and I'll give it a try.
$endgroup$
– uhoh
Jan 9 at 5:16
add a comment |
Your Answer
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1 Answer
1
active
oldest
votes
1 Answer
1
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
NASA JPL optical design team, including Scott Basinger and Mayer Rud and co-investigator Grover Swartzlander at the Rochester Institute of Technology Center for Imaging Science think so! They call them "orbital rainbows" when used as distributed mirrors for a giant telescope.
- JPL: Glitter Cloud May Serve as Space Mirror
- YouTube: Orbiting Rainbows: A Space Telescope Mirror Concept
The whole concept is described here Orbiting Rainbows: Optical Manipulation of Aerosols and the beginnings of Future Space Construction:
which I found linked in the NASA.gov page Orbiting Rainbows along with the image below:
From JPL's Orbiting Rainbows Simulation
answered Jan 9 at 5:15
uhohuhoh
36.2k18128454
$endgroup$
$begingroup$
The report is over 100 pages long and so I'm not sure which section to quote. If you have any specific areas you'd like addressed in more detail please note them here and I'll give it a try.
$endgroup$
– uhoh
Jan 9 at 5:16
add a comment |
$begingroup$
NASA JPL optical design team, including Scott Basinger and Mayer Rud and co-investigator Grover Swartzlander at the Rochester Institute of Technology Center for Imaging Science think so! They call them "orbital rainbows" when used as distributed mirrors for a giant telescope.
- JPL: Glitter Cloud May Serve as Space Mirror
- YouTube: Orbiting Rainbows: A Space Telescope Mirror Concept
The whole concept is described here Orbiting Rainbows: Optical Manipulation of Aerosols and the beginnings of Future Space Construction:
which I found linked in the NASA.gov page Orbiting Rainbows along with the image below:
From JPL's Orbiting Rainbows Simulation
answered Jan 9 at 5:15
uhohuhoh
36.2k18128454
$endgroup$
$begingroup$
The report is over 100 pages long and so I'm not sure which section to quote. If you have any specific areas you'd like addressed in more detail please note them here and I'll give it a try.
$endgroup$
– uhoh
Jan 9 at 5:16
add a comment |
$begingroup$
NASA JPL optical design team, including Scott Basinger and Mayer Rud and co-investigator Grover Swartzlander at the Rochester Institute of Technology Center for Imaging Science think so! They call them "orbital rainbows" when used as distributed mirrors for a giant telescope.
- JPL: Glitter Cloud May Serve as Space Mirror
- YouTube: Orbiting Rainbows: A Space Telescope Mirror Concept
The whole concept is described here Orbiting Rainbows: Optical Manipulation of Aerosols and the beginnings of Future Space Construction:
which I found linked in the NASA.gov page Orbiting Rainbows along with the image below:
From JPL's Orbiting Rainbows Simulation
answered Jan 9 at 5:15
uhohuhoh
36.2k18128454
$endgroup$
NASA JPL optical design team, including Scott Basinger and Mayer Rud and co-investigator Grover Swartzlander at the Rochester Institute of Technology Center for Imaging Science think so! They call them "orbital rainbows" when used as distributed mirrors for a giant telescope.
- JPL: Glitter Cloud May Serve as Space Mirror
- YouTube: Orbiting Rainbows: A Space Telescope Mirror Concept
The whole concept is described here Orbiting Rainbows: Optical Manipulation of Aerosols and the beginnings of Future Space Construction:
which I found linked in the NASA.gov page Orbiting Rainbows along with the image below:
From JPL's Orbiting Rainbows Simulation
answered Jan 9 at 5:15
uhohuhoh
36.2k18128454
edited Jan 9 at 5:35
answered Jan 9 at 5:15
uhohuhoh
36.2k18128454
answered Jan 9 at 5:15
uhohuhoh
36.2k18128454
answered Jan 9 at 5:15
uhohuhoh
36.2k18128454
36.2k18128454
$begingroup$
The report is over 100 pages long and so I'm not sure which section to quote. If you have any specific areas you'd like addressed in more detail please note them here and I'll give it a try.
$endgroup$
– uhoh
Jan 9 at 5:16
add a comment |
$begingroup$
The report is over 100 pages long and so I'm not sure which section to quote. If you have any specific areas you'd like addressed in more detail please note them here and I'll give it a try.
$endgroup$
– uhoh
Jan 9 at 5:16
$begingroup$
The report is over 100 pages long and so I'm not sure which section to quote. If you have any specific areas you'd like addressed in more detail please note them here and I'll give it a try.
$endgroup$
– uhoh
Jan 9 at 5:16
$begingroup$
The report is over 100 pages long and so I'm not sure which section to quote. If you have any specific areas you'd like addressed in more detail please note them here and I'll give it a try.
$endgroup$
– uhoh
Jan 9 at 5:16
add a comment |
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$begingroup$
The anonymous and poorly-informed "primarily opinion based" close voter has struck again!
$endgroup$
– uhoh
Jan 9 at 5:17