Copied form the comment above: aliens have an accelerator which could send 1mg probe every second, and the accelerator’s weight is 1000 tons. Thus, it will send its own mass in 20 000 years. All these probes clump (using some internal navigation and small difference in initial speed) with each other after a few million years, and using some nanotech, they build another accelerator, which send just one probe in the back direction, which is the deceleration, as its speed will be zero.
Nanoprobe is a small starship send by an accelerator, which is similar to electric railgun or hadron collider.
All nanoprobes are send in the same direction.
They are send with the different speeds, in such a way, that later nanoprobes are quicker and will catch up the first ones is some moment in time. They couple each over at that moment. This results in “clumping”.
Resulting large clump of matter which itself is traveling with near с speed reorganise itself in a large starship using nanotech.
This starship builds another accelerator which sends one nanoprobe in the back direction with speed near c.
Rest frame is the frame of the first accelerator here, that is, of the alien civilisation.
The new nanoprobe has 0 speed relative to alien civilisation, but is now located millions light years from it, so the task of deceleration is solved.
This could be also used for deceleration by interaction with interstellar plasma.
But I thought about different thing: to use the magnetic field of the black hole for deceleration. In this case, the space craft generates its small magnetic field which interacts with giant magnetic field of the black hole.
Thanks for explaining. I see what you mean now. But I still don’t get how this is useful. Why not simply send the larger ship in the first place, instead of sending the building materials?
Perhaps it’s easier to accelerate smaller things? You can give the nanoprobe all the necessary momentum in the solar system—it doesn’t have to carry any fuel—whereas you can’t feasibly accelerate an entire ship to near-c within the solar system.
Yes, it is about price: this scheme will be a trillion times cheaper, as I discuss in a comment above. A super-intelligent alien AI may not worry about prices, but if it has some resource limitations, it would use more economical solutions.
Copied form the comment above: aliens have an accelerator which could send 1mg probe every second, and the accelerator’s weight is 1000 tons. Thus, it will send its own mass in 20 000 years. All these probes clump (using some internal navigation and small difference in initial speed) with each other after a few million years, and using some nanotech, they build another accelerator, which send just one probe in the back direction, which is the deceleration, as its speed will be zero.
Nanoprobe is a small starship send by an accelerator, which is similar to electric railgun or hadron collider.
All nanoprobes are send in the same direction.
They are send with the different speeds, in such a way, that later nanoprobes are quicker and will catch up the first ones is some moment in time. They couple each over at that moment. This results in “clumping”.
Resulting large clump of matter which itself is traveling with near с speed reorganise itself in a large starship using nanotech.
This starship builds another accelerator which sends one nanoprobe in the back direction with speed near c.
Rest frame is the frame of the first accelerator here, that is, of the alien civilisation.
The new nanoprobe has 0 speed relative to alien civilisation, but is now located millions light years from it, so the task of deceleration is solved.
----
Typical magnetic sail uses magnetiс field generated by the spacecraft to capture stellar wind. https://en.wikipedia.org/wiki/Magnetic_sail
This could be also used for deceleration by interaction with interstellar plasma.
But I thought about different thing: to use the magnetic field of the black hole for deceleration. In this case, the space craft generates its small magnetic field which interacts with giant magnetic field of the black hole.
Thanks for explaining. I see what you mean now. But I still don’t get how this is useful. Why not simply send the larger ship in the first place, instead of sending the building materials?
Perhaps it’s easier to accelerate smaller things? You can give the nanoprobe all the necessary momentum in the solar system—it doesn’t have to carry any fuel—whereas you can’t feasibly accelerate an entire ship to near-c within the solar system.
Yes, it is about price: this scheme will be a trillion times cheaper, as I discuss in a comment above. A super-intelligent alien AI may not worry about prices, but if it has some resource limitations, it would use more economical solutions.