Hyperuniform disordered (HuD) photonic materials have recently been shown to display several localized states with relatively high Q factors. However, their spatial position is not predictable a priori. Here we experimentally benchmark through near-field spectroscopy the engineering of high Q/V resonant modes in a defect inside a HuD pattern. These deterministic modes, coexisting with Anderson-localized modes, are a valid candidate for implementations in optoelectronic devices due to the spatial isotropy of the HuD environment upon which they are built.
Engineering high Q/V photonic modes in correlated disordered systems / Granchi N.; Spalding R.; Stokkereit K.; Lodde M.; Fiore A.; Sapienza R.; Intonti F.; Florescu M.; Gurioli M.. - ELETTRONICO. - (2022), pp. 1155-1156. ( META).
Engineering high Q/V photonic modes in correlated disordered systems
Granchi N.;Intonti F.;Gurioli M.
2022
Abstract
Hyperuniform disordered (HuD) photonic materials have recently been shown to display several localized states with relatively high Q factors. However, their spatial position is not predictable a priori. Here we experimentally benchmark through near-field spectroscopy the engineering of high Q/V resonant modes in a defect inside a HuD pattern. These deterministic modes, coexisting with Anderson-localized modes, are a valid candidate for implementations in optoelectronic devices due to the spatial isotropy of the HuD environment upon which they are built.
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