Intrinsic Diophantine approximation on the unit circle and its Lagrange spectrum

Abstract

Let L(S1) be the Lagrange spectrum arising from intrinsic Diophantine approximation on the unit circle S1 by its rational points. We give a complete description of the structure of L(S1) below its smallest accumulation point. To this end, we use digit expansions of points on S1, which were originally introduced by Romik in 2008 as an analogue of simple continued fraction of a real number. We prove that the smallest accumulation point of L(S1) is 2. Also we characterize the points on S1 whose Lagrange numbers are less than 2 in terms of Romik's digit expansions. Our theorem is the analogue of the celebrated theorem of Markoff on badly approximable real numbers.