The homotopy fibre of the inclusion F\n(M) Π\1n M for M either S2 orRP2 and orbit configuration spaces

Abstract

Let n≥ 1, and let \n F\n(M) Π\1n M be the natural inclusion of the nth configuration space of M in the n-fold Cartesian product of M with itself. In this paper, we study the map \n, its homotopy fibre I\n, and the induced homomorphisms (\n)\#k on the kth homotopy groups of F\n(M) and Π\1n M for k≥ 1 in the cases where M is the 2-sphere S2 or the real projective plane RP2. If k≥ 2, we show that the homomorphism (\n)\#k is injective and diagonal, with the exception of the case n=k=2 and M=S2, where it is anti-diagonal. We then show that I\n has the homotopy type of K(R\n-1,1) × (Π\1n-1 S2), where R\n-1 is the (n-1)th Artin pure braid group if M=S2, and is the fundamental group G\n-1 of the (n-1)th orbit configuration space of the open cylinder S2 \z\0, -z\0\ with respect to the action of the antipodal map of S2 if M=RP2, where z\0∈ S2. This enables us to describe the long exact sequence in homotopy of the homotopy fibration I\n F\n(M) \n Π\1n M in geometric terms, and notably the boundary homomorphism π\k+1(Π\1n M) π\k(I\n). From this, if M=RP2 and n≥ 2, we show that (\n)\#1 is isomorphic to the quotient of G\n-1 by its centre, as well as to an iterated semi-direct product of free groups with the subgroup of order 2 generated by the centre of P\n(RP2) that is reminiscent of the combing operation for the Artin pure braid groups, as well as decompositions obtained in a previous paper.