This shows how the final stage and the Soyuz end up in the same orbit - which is what makes this idea work
Then, gentle tether spin just to keep the tether taught soon after separation of the Soyuz from final stage.
All these videos are done in Orbiter, a remarkable space mission simulator by Dr. Martin Schweiger with lots of add ons contributed by enthusiasts.Reminder of how the mission works
Thanks to Gattispilot, for making the tethers for these animations and for techy advice about how to attach everything together.
That cube in the centre of the picture is just a visual indicator of the position of the c. of g. The real tether wouldn't have it.
Northern hemisphere 353 Km
Southern Hemisphere 225 Km
(all the boosts happen in Southern Hemisphere)
Northern hemisphere 353 Km
Southern Hemisphere 278 Km
(Release happens in Northern Hemisphere)
This is 100 meter tether and 6 rpm, crew at 12.5 meters from tether centre of gravity - a spin rate that less susceptible individuals were able to withstand long term in rotating room experiments - taking one day to adapt after which they were symptom free.Or you can achieve 0.5 g at 50 meters and 3 rpm, total tether length of 200 meters.
These were experiments using the rotating room facility of the Ashton Graybiel Spatial Orientation Laboratory at Brandeis University
For details of these and other experiments see Theodore Hall's dissertation on artificial gravity.
As it's just an add on experiment you wouldn't select the astronauts based on their susceptibility - but could certainly attempt to pre-adapt them with rotating rooms and pre-test them for susceptibility - and f it turned out that all the astronauts in the mission were low susceptibility and could withstand 6 rpm long term in rotating rooms on the Earth - it could be well worth a try.
This is half g, same delta v - at 3 rpm many people might be expected to tolerate it long term with only mild symptoms, if the Earth experiments are a guide.
Even most highly susceptible people have no problems with 1 rpm stays long term in rotating rooms on the Earth. So probably this would be fine for everyone in space also - that is if the Earth experiments are a reasonable guideline which nobody knows of course.Probably the crew would spend most of the mission doing this - though you could vary this from one mission to the other to get data for different regimes depending on what is of most interest for research etc.
That's also got links to the original paper, and lots of other references on artificial gravity and links to follow up.
Same experiment with the Space-X Falcon 9 and Dragon when that's ready
Similar ideas could also be used for lunar missions and interplanetary missions, because they also have final stages, and most of them send the final stage on an almost identical trajectory to the spacecraft itself - for practical reasons because the final stage of course has far more fuel than the spacecraft with conventional methods of propulsion
(Indian MOM mission was an exception because of its use of gravity assist from Earth).
Be sure to check out the webinar, this Sunday 25th of May. 1-3 PM PDT, (4-6 PM EDT, 3-5 PM CDT). I make that 8 - 10 PM GMT, or 9 - 11 pm BST. (website showing current local time in PDT)
I'm happy for anyone to share and re-use the videos in any way so long as they are attributed.
The obvious thing is to release the videos on youtube under CC By which makes the videos available for anyone on youtube to mix and re-use as they like. However, youtube videos released under CC By in that way can be used commercially.
Orbiter's license would permit that, and I'm okay with that myself - but most of the add ons have no explicit license. So, I think you would need to ask the developers of all add ons used in the simulation to release it with that license.