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Light-matter interactions of guided modes strongly depend on mode shape. This Letter presents an ultrahigh extinction ratio (ER) polarizer/modulator at λ=1.55µm, enabled by selective mode reshaping for different orthogonal modes.… Click to show full abstract
Light-matter interactions of guided modes strongly depend on mode shape. This Letter presents an ultrahigh extinction ratio (ER) polarizer/modulator at λ=1.55µm, enabled by selective mode reshaping for different orthogonal modes. This bi-function device benefits from a designed side-polished fiber (SPF) with a three-layer stack of graphene/VO2/PMMA overlay. Thermally induced insulator-metal transition (IMT) in VO2 via a graphene microheater leads to the polarization-selective mode shaping (PSMS), which is used to manipulate orthogonal modes separately. As a result, a TE modulator (TM-pass polarizer) with an ultrahigh ER=168.4dB/mm (175.1 dB/mm) and low insertion loss (IL) of IL=3.38dB/mm (0.34 dB/mm) is achieved.
Journal Title: Optics letters
Year Published: 2021
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