US2024004147A1PendingUtilityA1
Reflector structure having three-dimensional curvature
Est. expiryJul 1, 2042(~16 yrs left)· nominal 20-yr term from priority
G02B 6/4214G02B 6/423G02B 5/10G02B 6/43G02B 6/4206G02B 6/4274G02B 6/4228G02B 6/4245G02B 6/4244G02B 5/0808G02B 2006/12176G02B 2006/12104
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Claims
Abstract
A structure and method for the formation of a reflector structure having three-dimensional surface curvature is disclosed. Beam narrowing upon reflection from the three-dimensionally curved surface in embodiments can provide improved coupling efficiency in addition to the directional change provided by the reflector.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A reflector structure disposed on a substrate,
wherein the reflector structure is configured to transmit an optical signal between a first direction parallel to the substrate and a second direction forming an angle less than 60 degrees with a third direction perpendicular with the substrate, wherein the reflector structure comprises a curved surface, with the curved surface comprising curved intersecting lines between the curved surface and planes parallel and perpendicular to the substrate, wherein the curved surface is configured to reflect an incoming optical signal to a reflected optical signal comprising a smaller cross section area.
2 . A reflector structure as in claim 1 ,
wherein the second direction is perpendicular to the substrate.
3 . A reflector structure as in claim 1 ,
wherein the reflector structure comprises a reflective layer disposed on a cavity of the substrate.
4 . A reflector structure as in claim 1 ,
wherein the reflector structure comprises a reflective layer disposed on a cavity of the substrate. wherein the reflective layer comprises a variable thickness across at least the curved intersecting lines.
5 . A reflector structure as in claim 1 ,
wherein the reflector structure is configured to transmit or receive the optical signal between a first device disposed on the substrate and a second device disposed on the reflector structure.
6 . A structure comprising
a substrate; a first optical element disposed on the substrate, with the optical element configured to transmit an optical signal or to receive the optical signal; a reflector structure disposed on the substrate and aligned with the optical element,
wherein the reflector structure is configured to transmit or receive the optical signal between the first optical element and a second optical element disposed away from the reflector structure in a direction from the substrate to the reflector structure,
wherein the reflector structure comprises a curved surface, with the curved surface comprising curved intersecting lines between the curved surface and planes parallel and perpendicular to the substrate,
wherein the curved surface is configured to reflect an incoming optical signal to a reflected optical signal comprising a smaller cross section area.
7 . A structure as in claim 6 ,
wherein the first optical element comprises a waveguide, wherein the second optical element comprises an optical or an optoelectronic surface-mount device.
8 . A structure as in claim 6 , further comprising
wherein the second optical element comprises an optical or an optoelectronic surface-mount device disposed on the substrate and aligned with the first optical element.
9 . A structure as in claim 6 , further comprising
an alignment aid element disposed on the substrate, wherein the alignment aid element is configured to align the first optical element with an optical or optoelectrical device to be mounted on the substrate, wherein the optical or optoelectrical device is configured to be aligned to the first optical element with an accuracy of a lithography process due to a same mask used to form the first optical element and the alignment aid element.
10 . A structure as in claim 6 , further comprising
a first alignment aid element disposed on the substrate,
wherein the first alignment aid element is configured to align a first optical axis of the first optical element with a second optical axis of an optical or optoelectrical device to be mounted on the substrate in a plane parallel to the substrate,
a second alignment aid element disposed on the substrate,
wherein the second alignment aid element is configured to restrain the second optical axis from diverting from the first optical axis in a plane perpendicular to the substrate.
11 . A structure as in claim 6 ,
wherein the reflector structure comprises a reflective layer disposed on a cavity in a layer on the substrate, wherein the substrate comprises mounting pads on top the layer to receive the second optical element.
12 . A structure as in claim 6 ,
wherein the reflector structure comprises a reflective layer disposed on a cavity of the substrate, wherein the first optical element comprises an end facet facing the cavity, with the cavity configured to align the optical signal between the first optical element through the end facet and the cavity.
13 . A structure as in claim 6 ,
wherein the reflector structure comprises a reflective layer disposed on a cavity of the substrate, wherein the reflector structure is configured to be aligned to the first optical element with an accuracy of a lithography process due to a same mask used to form the cavity and the first optical element.
14 . A structure as in claim 6 ,
wherein the substrate comprises an interconnection layer under the first optical element, wherein the interconnection layer comprises one or more interconnection lines disposed in one or more levels and connected by one or more vias.
15 . A structure as in claim 6 ,
wherein the substrate comprises an interconnection layer under the first optical element, wherein the structure further comprises an optical or optoelectrical device disposed on the substrate and aligned with the first optical element, wherein the optical or optoelectrical device is coupled to an interconnect line in the interconnection layer.
16 . A structure as in claim 6 ,
wherein the substrate comprises an interconnection layer under the first optical element, wherein the substrate comprises an alignment aid element configured to align the first optical element with an optical or optoelectrical device to be mounted on the substrate, wherein the substrate comprises one or more bond pads connected to interconnect lines in the interconnection layer, with the bond pads configured to be coupled to terminal pads of the optical or optoelectronic device.
17 . A structure as in claim 6 ,
wherein the substrate comprises an interconnection layer under the first optical element, wherein the reflector structure comprises a reflective layer disposed on a cavity of the substrate, wherein the reflective layer is connected to an interconnect line of the interconnect layer, wherein the second optical element comprises an optoelectronic device comprising a terminal pad connected to the reflective layer.
18 . An assembly comprising
a substrate; a first device coupled to a waveguide on the substrate, with the first device configured to transmit an optical signal to the waveguide or to receive the optical signal from the waveguide; a reflector structure disposed in a layer on the substrate and aligned with the waveguide,
wherein the reflector structure comprises a curved surface, with the curved surface comprising curved intersecting lines between the curved surface and planes parallel and perpendicular to the substrate,
wherein the curved surface configured to reflect an incoming optical signal to a reflected optical signal comprising a smaller cross section area;
a second device disposed on the layer above the reflector structure, wherein the second device is configured to receive or transmit the optical signal from or to the first device reflected by the reflector structure.
19 . An assembly as in claim 18 ,
wherein the first device comprises an optical emitter device, wherein the second device comprises an optical receiver device, wherein the first device is configured to transmit the optical signal to the reflector structure, with the optical signal received by the second device after being reflected by the reflector structure.
20 . An assembly as in claim 18 ,
wherein the first device comprises an optical receiver device, wherein the second device comprises an optical emitter device, wherein the second device is configured to transmit the optical signal to the reflector structure, with the optical signal received by the first device after being reflected by the reflector structure.Cited by (0)
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