Abstract
Cloaking using complementary media was suggested by Lai et al. in 2009. This was proved by H.-M. Nguyen (2015) in the quasistatic regime. One of the difficulties in the study of this problem is the appearance of the localized resonance, i.e., the fields blow up in some regions and remain bounded in some others as the loss goes to 0. To this end, H.-M. Nguyen introduced the technique of removing localized singularity and used a standard three spheres inequality. The method used also works for the Helmholtz equation. However, it requires small size of the cloaked region for large frequency due to the use of the (standard) three spheres inequality. In this paper, we give a proof of cloaking using complementary media in the finite frequency regime without imposing any condition on the cloaked region; the cloak works for an arbitrary fixed frequency provided that the loss is sufficiently small. To successfully apply the above approach of Nguyen, we establish a new three spheres inequality. A modification of the cloaking setting to obtain illusion optics is also discussed.
Highlights
Negative index materials (NIMs) were investigated theoretically by Veselago in [36]
The study of NIMs has attracted a lot of attention in the scientific community thanks to their interesting properties and applications
Cloaking using NIMs or more precisely cloaking using complementary media was suggested by Lai et al in [11]
Summary
Negative index materials (NIMs) were investigated theoretically by Veselago in [36]. The existence of such materials was confirmed by Shelby, Smith, and Schultz in [35]. Two difficulties in the study of cloaking using complementary media are as follows. Illusion optics, superlensing, three spheres inequality, localized resonance, negative index materials, complementary media. This inequality is inspired from the unique continuation principle and its proof is in the spirit of Protter in [34]. It is based on the removing localized singularity technique introduced in [21] and uses a new three sphere inequality (Theorem 2) discussed .
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