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The transformation optics approach to cloaking uses a singular change of
coordinates, which blows up
a point to the region being cloaked. This paper examines a natural
regularization, obtained by (i) blowing up
a ball of radius rho rather than a point, and (ii) including a
well-chosen lossy layer at the inner edge of the cloak.
We assess the performance of the resulting near-cloak as the
regularization parameter, rho, tends to zero, in the
context of (Dirichlet and Neumann) boundary measurements for the
time-harmonic Helmholtz equation. Since the
goal is to achieve cloaking regardless of the content of the cloaked
region, we focus on estimates that are uniform with
respect to the physical properties of this region. In three space
dimensions our regularized construction performs
relatively well: the deviation from perfect cloaking is of order rho.
In two space dimensions it does much worse:
the deviation is of order 1/|log (rho)|. In addition to proving these
estimates, we give numerical examples
demonstrating their sharpness. Some authors have argued that perfect
cloaking can be achieved without
losses by using the singular change-of-variable-based construction. In our
regularized setting the analogous
statement is false: without the lossy layer, there are certain
``cloak-busting'' inclusions (depending in general on
rho) that have a huge effect on the boundary measurements.
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