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Abstract
The realization of a semiconductor near-unity absorber in the infrared will provide new capabilities to transform applications in sensing, health, imaging, and quantum information science, especially where portability is required. Typically, commercially available portable single-photon detectors in the infrared are made from bulk semiconductors and have efficiencies well below unity. Here, we design a novel semiconductor nanowire metamaterial, and show that by carefully arranging an InGaAs nanowire array and by controlling their shape, we demonstrate near-unity absorption efficiency at room temperature. We experimentally show an average measured efficiency of 93% (simulated average efficiency of 97%) over an unprecedented wavelength range from 900 to 1500 nm. We further show that the near-unity absorption results from the collective response of the nanowire metamaterial, originating from both coupling into leaky resonant waveguide and transverse modes. These coupling mechanisms cause light to be absorbed directly from the top and indirectly as light scatters from one nanowire to neighbouring ones. This work leads to the possible development of a new generation of quantum detectors with unprecedented broadband near-unity absorption in the infrared, while operating near room temperature for a wider range of applications.
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Details
1 University of Waterloo, Institute for Quantum Computing, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Department of Electrical and Computer Engineering, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405)
2 University of Waterloo, Institute for Quantum Computing, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Department of Chemistry, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Centre for Advanced Materials Joining, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405)
3 University of Waterloo, Department of Electrical and Computer Engineering, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Waterloo Institute for Nanotechnology, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405)
4 University of Waterloo, Institute for Quantum Computing, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Waterloo Institute for Nanotechnology, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Department of Chemistry, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Department of Physics and Astronomy, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405)
5 University of Waterloo, Institute for Quantum Computing, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Department of Electrical and Computer Engineering, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405); University of Waterloo, Department of Physics and Astronomy, Waterloo, Canada (GRID:grid.46078.3d) (ISNI:0000 0000 8644 1405)