R. Zengerle scite author profile

We present a bulk metamaterial with negative refractive index in the terahertz frequency range. The structure is composed of pairs of metallic crosses embedded in Benzocyclobutene (BCB). The design is specifically chosen to provide a low-loss, free-standing material which operates under normal incidence and independently of the polarization of the incident radiation. These qualities allow the fabrication of 3D structures by mechanical stacking of multiple thin films.

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Phase-shifted Bragg-grating filters with improved transmission characteristics

Zengerle

Leminger

1995

J. Lightwave Technol.

127

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Polarization-independent active metamaterial for high-frequency terahertz modulation

Paul¹,

Imhof²,

Lägel³

et al. 2009

Opt. Express

121

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We present a polarization-independent metamaterial design for the construction of electrically tunable terahertz (THz) devices. The implemented structure consists of an array of gold crosses fabricated on top of an n-doped gallium arsenide (GaAs) layer. Utilizing THz time-domain spectroscopy, we show that the electric resonance and thus the transmission properties of the cross structure can be tuned by an externally applied bias voltage. We further demonstrate the fast amplitude modulation of a propagating THz wave for modulation frequencies up to 100 kHz.

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Strong birefringence in left-handed metallic metamaterials

Imhof

Zengerle

2007

Optics Communications

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R. Zengerle

Light Propagation in Singly and Doubly Periodic Planar Waveguides

Negative index bulk metamaterial at terahertz frequencies

Phase-shifted Bragg-grating filters with improved transmission characteristics

Polarization-independent active metamaterial for high-frequency terahertz modulation

Strong birefringence in left-handed metallic metamaterials

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