The aim of the study was to determine the relationship between the Nuclotron and the NICA collider, including modification of the Nuclotron magneto-optical structure to create a synchrotron with two functions in one accelerator: a booster for injection into the collider and an independent synchrotron-storage ring for conducting precision experiments on the EDM of light nuclei and the search for an axion. The following conditions must be met:

• the modernised ring must be located in the existing tunnel of the currently operating Nuclotron accelerator;
• the maximum field in the magnets does not exceed 1.8 Tesla;
• the dispersion function on straight sections is as close as possible to zero;
• implementation of the “quasi-frozen” spin mode in the Nuclotron in order to create conditions for searching for the deuteron EDM;
• determination of the limiting parameters of the proton beam for searching the EDM in the pro-posed Nuclotron ring;
• study of possible options for eliminating the passage of a polarised proton beam through the critical energy in the collider after electron cooling in order to maintain high luminosity;
• magneto-optical structure from the point of view of spin conservation and control should be approved by Yuri Filatov.