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Magnetron-sputtered and thermal-evaporated low-loss Sb-Se phase-change films in non-volatile integrated photonics

Kunhao Lei, Maoliang Wei, Zequn Chen, Jianghong Wu, Jialing Jian, Jia Du, Junying Li, Lan Li, Hongtao Lin

2022Optical Materials Express33 citationsDOIOpen Access PDF

Abstract

Chalcogenide phase change materials (PCMs), featuring a large contrast in optical properties between their non-volatile amorphous and crystalline states, have triggered a surge of interest for their applications in ultra-compact photonic integrated circuits with long-term near-zero power consumption. Over the past decade, however, PCM-integrated photonic devices and networks suffered from the huge optical loss of various commonly-used PCMs themselves. In this paper, we focused on the deposition, characterization, and monolithic integration of an emerging low-loss phase change material, Sb 2 Se 3 on a silicon photonic platform. The refractive index contrast between the amorphous and crystalline phase of the evaporated Sb-Se thin film was optimized up to 0.823 while the extinction coefficient remains less than 10 −5 measured by ellipsometry. When integrated on a silicon waveguide, the propagation loss introduced by the amorphous thin film is negligibly low. After crystallization, the propagation loss of a magnetron-sputtered Sb-Se patch-covered silicon waveguide is as low as 0.019 dB/µm, while its thermal-evaporated counterpart is below 0.036 dB/µm.

Topics & Concepts

Materials scienceAmorphous solidOptoelectronicsRefractive indexSiliconPhotonicsWaveguideSputter depositionThin filmChalcogenideOpticsSilicon photonicsAmorphous siliconEllipsometryCrystalline siliconSputteringNanotechnologyChemistryPhysicsOrganic chemistryPhase-change materials and chalcogenidesChalcogenide Semiconductor Thin FilmsNonlinear Optical Materials Studies
Magnetron-sputtered and thermal-evaporated low-loss Sb-Se phase-change films in non-volatile integrated photonics | Litcius