Fractal geometry of continued fractions with large coefficients and dimension drop problems

In 1928, Jarn\'k Jar obtained that the set of continued fractions with bounded coefficients has Hausdorff dimension one. Good Goo observed a dimension drop phenomenon by proving that the Hausdorff dimension of the set of continued fractions whose coefficients tend to infinity is one-half. For the set of continued fractions whose coefficients tend to infinity rapidly, Luczak Luc and Feng et al. FWLT showed that its Hausdorff dimension decreases even further. Recently, Liao and Rams LR16 also observed an analogous dimension drop phenomenon when they studied the subexponential growth rate of the sum of coefficients. In this paper, we consolidate and considerably extend the studies of the abovementioned problem into a general dimension drop problem on the distribution of continued fractions with large coefficients. As applications, we use a different approach to reprove a result of Wang and Wu on the dimensions of the Borel-Bernstein sets WW, fulfil the dimension gap proposed by Liao and Rams LR16, and establish several new results concerning the dimension theory of liminf and limsup sets related to the maximum of coefficients.