Are there any concrete constructions of graphs of both high girth and chromatic number?
Of course there is the seminal paper of Erdős which proves the existence of such graphs via the probabilistic method, but this method does not give an idea at all how these graphs look like. I know there are some constructions for high odd girth and high chromatic number, e.g. multi-shift graphs and generalized Mycielskians (maybe Kneser graphs also work, but if a Kneser graph has chromatic number at least 4, it contains a $C_4$). Is there maybe an explicit construction for expander graphs which meets both of these requirements?
Maybe there is a way to relax chromatic number to make it known again if the original question is too hard:
Is there a concrete construction of graphs with high girth and high minimum degree?
The following is a construction of graphs of girth 8 and arbitrarily high minimum degree: $V=[k]^k\times \{p,g\},E=\{\{P,G\}\mid P_{k+1}=p,G_{k+1}=g,P_{[k]\setminus G_k}=G_{[k-1]} \}$, where $P_I\subset [k]^I$ denotes the subtuple when restricted to the indices in $I$.
However I have no idea how to generalize this construction. For instance is there a way to increase the girth of a graph without lowering its minimum degree/chromatic number? I think that is enough questions for now :)
