公开(公告)号：US20200096702A1

公开(公告)日：2020-03-26

申请号：US16138122

申请日：2018-09-21

Applicant: Nokia Solutions and Networks OY

Inventor： Po Dong ,  Kwangwoong Kim ,  Argishti Melikyan

IPC: G02B6/12 ,  G02B6/43 ,  G02B6/30 ,  G02B6/42 ,  H04B10/25

Abstract: A photonic chip having a photonic-circuit layer supported on a substrate, the photonic-circuit layer including a suspended portion that extends beyond the outline of the substrate on the photonic-circuit layer. In various embodiments, the suspended portion may host one or more functional optical elements, such as an on-chip grating coupler, an on-chip microring resonator, and an on chip optical waveguide, that can be used to couple light in and out of the photonic chip. The geometry of the suspended portion enables unencumbered (e.g., double-sided) access to the one or more functional optical elements located therein and can advantageously be used to place an optical fiber and/or a second photonic chip sufficiently close to those functional optical elements to achieve a high chip-to-fiber or chip-to-chip optical-coupling efficiency.

公开(公告)号：US10649138B2

公开(公告)日：2020-05-12

申请号：US16138122

申请日：2018-09-21

Applicant: Nokia Solutions and Networks OY

Inventor： Po Dong ,  Kwangwoong Kim ,  Argishti Melikyan

IPC: G02B6/12 ,  G02B6/43 ,  H04B10/25 ,  G02B6/42 ,  G02B6/30

Abstract: A photonic chip having a photonic-circuit layer supported on a substrate, the photonic-circuit layer including a suspended portion that extends beyond the outline of the substrate on the photonic-circuit layer. In various embodiments, the suspended portion may host one or more functional optical elements, such as an on-chip grating coupler, an on-chip microring resonator, and an on chip optical waveguide, that can be used to couple light in and out of the photonic chip. The geometry of the suspended portion enables unencumbered (e.g., double-sided) access to the one or more functional optical elements located therein and can advantageously be used to place an optical fiber and/or a second photonic chip sufficiently close to those functional optical elements to achieve a high chip-to-fiber or chip-to-chip optical-coupling efficiency.