New lower bounds on kissing numbers and spherical codes in high dimensions

Abstract

Let the kissing number K(d) be the maximum number of non-overlapping unit balls in Rd that can touch a given unit ball. Determining or estimating the number K(d) has a long history, with the value of K(3) being the subject of a famous discussion between Gregory and Newton in 1694. We prove that, as the dimension d goes to infinity, K(d) (1+o(1))3π42\,32· d3/2· (23)d, thus improving the previously best known bound of Jenssen, Joos and Perkins by a factor of (3/2)/(9/8)+o(1)=3.442.... Our proof is based on the novel approach from Jenssen, Joos and Perkins that uses the hard core sphere model of an appropriate fugacity. Similar constant-factor improvements in lower bounds are also obtained for general spherical codes, as well as for the expected density of random sphere packings in the Euclidean space Rd.