The NA60+ experiment at the CERN SPS: physics goals and prospects

The region of the QCD phase diagram at high-$\mu_{\rm B}$ can be accessed by fixed-target experiments working at future or existing facilities providing nuclear beams in the multi-GeV energy range. In particular, the CERN SPS is able to provide high-intensity beams over a wide energy interval ($\sqrt{s_{\rm NN}} = 5-17$ GeV) that are ideal for the study of rare signals. An Expression of Interest has been presented for a new experiment at the CERN SPS, NA60+, aimed at measuring hard and electromagnetic probes in nuclear collisions with unprecedented precision with an energy scan. The physics goals of such an experiment are very broad and ambitious. On one hand, NA60+ proposes the investigation of the order of the phase transition to the QGP in the region \hfil\break $200<\mu_{\rm B}<400$ MeV with the first measurement of a caloric curve, and the first direct measurement of the $\rho-a_{\rm 1}$ chiral mixing by a precision measurement of the dimuon yield in the $a_{\rm 1}$ mass region. These physics topics can be addressed via the study of the thermal dimuon continuum from threshold up to 3 GeV. On the other hand, the study of the transport properties of the QGP close to the threshold energy for the occurrence of deconfinement can be accessed for the first time by a simultaneous precision study of hidden and open charm. The measurements of charmonium and open charm states are performed through dimuon and hadronic decays, respectively. In this contribution, the physics case of the experiment will be reviewed and selected results on the physics performance studies will be shown.