Gravitating global monopoles in extra dimensions and the braneworld concept

Multidimensional configurations with a Minkowski external space-time and a spherically symmetric global monopole in extra dimensions are discussed in the context of the braneworld concept. The monopole is formed with a hedgehog-like set of scalar fields Ф* with a symmetry-breaking potential V depending on the magnitude ф'² - ф'ф^г. All possible kinds of globally regular configurations are singled out without specifying the shape of V(0). These variants are governed by the maximum value ф_т of the scalar field, characterizing the energy scale of symmetry breaking. If ф_т < ф_сг (where ф_сг is a critical value of ф related to the multidimensional Planck scale), the monopole reaches infinite radii, whereas in the «strong field regime», when ф_т > ф_сг, the monopole may end with a finite-radius cylinder or have two regular centers. The warp factors of monopoles with both infinite and finite radii may either exponentially grow or tend to finite constant values far from the center. All such configurations are shown to be able to trap test scalar matter, in striking contrast to RS2 type five-dimensional models. The monopole structures obtained analytically are also found numerically for the Mexican hat potential with an additional parameter actinc as a cosmoloeical constant.