Generalized calculation model of different types of optical multi-pass cells based on refraction and reflection law

In this work, a generalized and accurate calculation model of the multi-pass cell is proposed. This novel calculation model without any errors can describe the ray's propagation, reflection and refraction in the multipass cell, which will be suitable for kinds of multi-pass cells, such as the plane mirror multi-pass cell, ring multipass cell and the traditional multi-pass cell consisted by different optical elements including spherical mirror, lens or cylindrical mirror. By the numerical calculation, it is found that the non-paraxial ray can create a set of intricate spot patterns with respect to a standard Herriot circle spot pattern from the traditional ABCD matrix. The detailed numerical calculations of the different multi-pass cells are carried out, thus the improvement of the utilization efficiency of the mirror surface and production of a longer total optical path length by non-paraxial ray in a compact volume can be verified.