| 摘要 |
The inventive optical component assembly advantageously enables a multi-waveguide optical component (such as the inventive optical fiber coupler array, a multi-core optical fiber, etc.), to be coupled to at least one waveguide of an optical device at a predefined coupling angle. The optical component assembly of the present invention comprises a multi-waveguide optical component with an output end, a prism having an input surface, an output surface, and an internal reflective surface with a predefined reflection angle, and a GRIN lens, positioned between the component output end and the prism input surface, along a longitudinal axis of the multi-waveguide optical component. In accordance with the present invention, the length of the GRIN lens, and its refractive index gradient profile are optimized to form an optical image of the output end of the multi-waveguide optical component, at the output surface of the prism, thus enabling the output surface of the prism to be coupled to at least one waveguide of an optical device, with the predefined reflection angle corresponding to the angle at which the multi-waveguide optical component may be coupled to the optical device. |
| 主权项 |
1. An optical coupler array assembly for use with an optical device, comprising:
a prism having an input surface, an output surface, and a reflective surface positioned at a predefined reflection angle; a GRIN lens of a first length, having a first end and a second end, and comprising a predefined index gradient profile; and an elongated optical element having a first end and a second end, and comprising:
a common single coupler housing structure;a plurality of longitudinal waveguides each positioned at a predetermined spacing from one another, each having a capacity for at least one optical mode of a predetermined mode field profile, each operable for transmission of a corresponding light signal of a predefined wavelength therethrough, and each embedded in said common single housing structure, wherein at least one of said plural longitudinal waveguides is a vanishing core waveguide each comprising:
an inner vanishing core, having a first refractive index (N−1), and having a first inner core size (ICS−1) at said first end, and a second inner core size (ICS−2) at said second end;an outer core, longitudinally surrounding said inner core, having a second refractive index (N−2), and having a first outer core size (OCS−1) at said first end, and a second outer core size (OCS−2) at said second end, andan outer cladding, longitudinally surrounding said outer core, having a third refractive index (N−3), a first cladding size at said first end, and a second cladding size at said second end; and wherein said common single coupler housing structure comprises a medium having a fourth refractive index (N−4) surrounding said plural longitudinal waveguides, wherein a predetermined relative magnitude relationship between said first, second, third and fourth refractive indices (N−1, N−2, N−3, and N−4, respectively), comprises the following magnitude relationships: (N−1>N−2>N−3), wherein a total volume of said medium of said common single coupler housing structure, is greater than a total volume of all said vanishing core waveguides inner cores and said outer cores confined within said common single coupler housing structure, and wherein said first inner vanishing core size, said first outer core size, and said predetermined spacing between said plural longitudinal waveguides, are simultaneously and gradually reduced, in accordance with a predetermined reduction profile, between said first end and said second end along said optical element, until said second inner vanishing core size and said second outer core size are reached, wherein said second inner vanishing core size is selected to be insufficient to guide light therethrough, and said second outer core size is selected to be sufficient to guide at least one optical mode, such that light traveling from said first end to said second end escapes from said inner vanishing core into said corresponding outer core proximally to said second end, and light traveling from said second end to said first end moves from said outer core into said corresponding inner vanishing core proximally to said first end, and wherein said GRIN lens is positioned between said second end of said elongated optical element and said input surface of said prism, and wherein said GRIN lens refractive index gradient profile and said GRIN lens length are optimized to form an optical image of said second end of said elongated optical element at said output surface of said prism at at least one said predefined light signal wavelength. |
