Superabsorbing, Artificial Metal Films Constructed From Semiconductor Nanoantennas

Keywords

germanium nanobeam; light absorption; Metafilm; Mie resonance; semiconductor nanoantenna

Abstract

In 1934, Wilhelm Woltersdorff demonstrated that the absorption of light in an ultrathin, freestanding film is fundamentally limited to 50%. He concluded that reaching this limit would require a film with a real-valued sheet resistance that is exactly equal to R = η/2 ≈ 188.5Ω/, where η=μ0/ϵ0 is the impedance of free space. This condition can be closely approximated over a wide frequency range in metals that feature a large imaginary relative permittivity ϵr″, that is, a real-valued conductivity σ = ϵ0ϵr″ω. A thin, continuous sheet of semiconductor material does not facilitate such strong absorption as its complex-valued permittivity with both large real and imaginary components preclude effective impedance matching. In this work, we show how a semiconductor metafilm constructed from optically resonant semiconductor nanostructures can be created whose optical response mimics that of a metallic sheet. For this reason, the fundamental absorption limit mentioned above can also be reached with semiconductor materials, opening up new opportunities for the design of ultrathin optoelectronic and light harvesting devices.

Publication Date

6-8-2016

Publication Title

Nano Letters

Volume

16

Issue

6

Number of Pages

3801-3808

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1021/acs.nanolett.6b01198

Socpus ID

84974574089 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84974574089

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