We know that the beta function for QCD is $$ \beta = -\left(11 - \dfrac{2N_f}{3}\right), $$ where $N_f$ is the number of fermions in the theory. We have $\beta_{\text{SM}} = -7$.
Now, my question is, how would this result be affected if we had a new fermion doublet at an insanely high energy? Let's say we have a new quark doublet with mass $1000\, \text{TeV}$, so that it cannot be a final state in our current particle colliders. Would this impact the beta function measured in the LHC, so that $\beta_{\text{SM}} = -17/3$? Or is this a high energy problem, that would have no effects in the measured $\beta$?
