Abstract
Recently the diode effect in superconductivity became an active area of research. In particular, the three-dimensional topological insulators may be one of the most suitable materials to implement the superconducting diodes. It is common to consider only linear and quadratic terms of the topological insulator Hamiltonian in the low energy expansion. Typically the effect of the hexagonal warping is neglected. However, the hexagonal warping can be very significant in consideration of the transport properties of the TI materials, such as Bi2Se3 or Bi2Te3. In this theoretical work we present the study of the Josephson diode effect based on the topological insulator weak link. We address the question of the hexagonal warping influence on the Josephson diode effect. We argue that the warping term leads to the anisotropy of the Josephson diode effect.