The Experts below are selected from a list of 25761 Experts worldwide ranked by ideXlab platform
Martin Wegener - One of the best experts on this subject based on the ideXlab platform.
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Negative index bianisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
Optics Letters, 2009Co-Authors: Michael S Rill, Stefan Linden, C E Kriegler, Michael Thiel, Georg Von Freymann, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 μm wavelength—despite the fact that the metamaterial structure is bianisotropic owing to the lack of inversion symmetry along its surface normal.
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Negative index bi anisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
arXiv: Optics, 2008Co-Authors: Michael S Rill, Stefan Linden, Michael Thiel, Georg Von Freymann, Christine Plet, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 micrometer wavelength - despite the fact that the metamaterial structure is bi-anisotropic due to the lack of inversion symmetry along its surface normal.
Michael S Rill - One of the best experts on this subject based on the ideXlab platform.
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Negative index bianisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
Optics Letters, 2009Co-Authors: Michael S Rill, Stefan Linden, C E Kriegler, Michael Thiel, Georg Von Freymann, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 μm wavelength—despite the fact that the metamaterial structure is bianisotropic owing to the lack of inversion symmetry along its surface normal.
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Negative index bi anisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
arXiv: Optics, 2008Co-Authors: Michael S Rill, Stefan Linden, Michael Thiel, Georg Von Freymann, Christine Plet, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 micrometer wavelength - despite the fact that the metamaterial structure is bi-anisotropic due to the lack of inversion symmetry along its surface normal.
Georg Von Freymann - One of the best experts on this subject based on the ideXlab platform.
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Negative index bianisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
Optics Letters, 2009Co-Authors: Michael S Rill, Stefan Linden, C E Kriegler, Michael Thiel, Georg Von Freymann, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 μm wavelength—despite the fact that the metamaterial structure is bianisotropic owing to the lack of inversion symmetry along its surface normal.
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Negative index bi anisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
arXiv: Optics, 2008Co-Authors: Michael S Rill, Stefan Linden, Michael Thiel, Georg Von Freymann, Christine Plet, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 micrometer wavelength - despite the fact that the metamaterial structure is bi-anisotropic due to the lack of inversion symmetry along its surface normal.
Michael Thiel - One of the best experts on this subject based on the ideXlab platform.
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Negative index bianisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
Optics Letters, 2009Co-Authors: Michael S Rill, Stefan Linden, C E Kriegler, Michael Thiel, Georg Von Freymann, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 μm wavelength—despite the fact that the metamaterial structure is bianisotropic owing to the lack of inversion symmetry along its surface normal.
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Negative index bi anisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
arXiv: Optics, 2008Co-Authors: Michael S Rill, Stefan Linden, Michael Thiel, Georg Von Freymann, Christine Plet, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 micrometer wavelength - despite the fact that the metamaterial structure is bi-anisotropic due to the lack of inversion symmetry along its surface normal.
Stefan Linden - One of the best experts on this subject based on the ideXlab platform.
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Negative index bianisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
Optics Letters, 2009Co-Authors: Michael S Rill, Stefan Linden, C E Kriegler, Michael Thiel, Georg Von Freymann, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 μm wavelength—despite the fact that the metamaterial structure is bianisotropic owing to the lack of inversion symmetry along its surface normal.
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Negative index bi anisotropic photonic metamaterial fabricated by direct laser writing and silver shadow evaporation
arXiv: Optics, 2008Co-Authors: Michael S Rill, Stefan Linden, Michael Thiel, Georg Von Freymann, Christine Plet, Martin WegenerAbstract:We present the blueprint for a novel Negative-index metamaterial. This structure is fabricated via three-dimensional two-photon direct laser writing and silver shadow evaporation. The comparison of measured linear optical spectra with theory shows good agreement and reveals a Negative Real Part of the refractive index at around 3.85 micrometer wavelength - despite the fact that the metamaterial structure is bi-anisotropic due to the lack of inversion symmetry along its surface normal.