Gravity thaws the frozen moduli of the C P1 lump
James Martin Speight and I.A.B. Strachan
Contact the author: Please use for correspondence this email.
Submission date: 05. May. 1999
published in: Physics Letters / B, 457 (1999) 1-3, p. 17-22
Download full preprint: PDF (302 kB), PS ziped (137 kB)
The slow motion of a self-gravitating C P1 lump is investigated in the approximation of geodesic flow on the moduli space of unit degree static solutions M1. It is found that moduli which are frozen in the absence of gravity, parametrizing the lump's width and internal orientation, may vary once gravitational effects are included. If gravitational coupling is sufficiently strong, the presence of the lump shrinks physical space to finite volume, and the moduli determining the boundary value of the C P1 field thaw also. Explicit formulae for the metric on M1 are found in both the weak and strong coupling regimes. The geodesic problem for weak coupling is studied in detail, and it is shown that M1 is geodesically incomplete. This leads to the prediction that self-gravitating lumps are unstable.