IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0684499
(2010-01-08)
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등록번호 |
US-8304805
(2012-11-06)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Taiwan Semiconductor Manufacturing Company, Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
255 |
초록
▼
A photonic device comprises a substrate and a dielectric material including two or more openings that expose a portion of the substrate, the two or more openings each having an aspect ratio of at least 1. A bottom diode material comprising a compound semiconductor material that is lattice mismatched
A photonic device comprises a substrate and a dielectric material including two or more openings that expose a portion of the substrate, the two or more openings each having an aspect ratio of at least 1. A bottom diode material comprising a compound semiconductor material that is lattice mismatched to the substrate occupies the two or more openings and is coalesced above the two or more openings to form the bottom diode region. The device further includes a top diode material and an active diode region between the top and bottom diode materials.
대표청구항
▼
1. A photonic device comprising: a substrate;a dielectric material including a first set of at least two openings and a second set of at least two openings, each of the openings in the first set and the second set exposing a portion of the substrate and having an aspect ratio of at least 1;a first d
1. A photonic device comprising: a substrate;a dielectric material including a first set of at least two openings and a second set of at least two openings, each of the openings in the first set and the second set exposing a portion of the substrate and having an aspect ratio of at least 1;a first diode comprising: a first bottom diode material comprising a first semiconductor material that is lattice mismatched to the substrate, and wherein the first semiconductor material occupies the first set of at least two openings and is coalesced above the first set of at least two openings;a first top diode material; anda first active diode region between the first top diode material and the first bottom diode material; anda second diode comprising: a second bottom diode material comprising a second semiconductor material that is lattice mismatched to the substrate, and wherein the second semiconductor material occupies the second set of at least two openings and is coalesced above the second set of at least two openings;a second top diode material; anda second active diode region between the second top diode material and the second bottom diode material;wherein at least one of (i) the second bottom diode material is different from the first bottom diode material, (ii) the second active diode region comprises a material different from a material of the first active diode region, (iii) the second top diode material is different from the first top diode material, or (iv) a combination thereof. 2. The photonic device of claim 1 wherein the substrate is selected from the group consisting of silicon, sapphire, and silicon carbide. 3. The photonic device of claim 1 wherein the substrate is a single crystal silicon wafer having a crystal orientation of (111) or (100). 4. The photonic device of claim 1 wherein the first active diode region comprises a p-n junction formed by a junction of the first top and first bottom diode materials. 5. The photonic device of claim 1 wherein the first active diode region comprises a material different from the first top and first bottom diode materials, and the first active diode region forms an intrinsic region of a p-i-n junction formed between the first top and first bottom diode materials. 6. The photonic device of claim 1 wherein the first active diode region comprises multiple quantum wells formed between the top and bottom diode materials. 7. The photonic device of claim 1 wherein the dielectric material comprises a material selected from the group consisting essentially of silicon dioxide, silicon nitride, silicon oxynitride, oxides of hafnium, silicates of hafnium, oxides of zirconium, silicates of zirconium, and combinations thereof. 8. The photonic device of claim 1 wherein each of the openings of the first set and second set opening is a hole having an aspect ratio of at least 1 in two perpendicular axes. 9. The photonic device of claim 1 wherein the first semiconductor material comprises a material selected from the group consisting essentially of a Group III-V compound, a Group II-VI compound, a Group IV alloy, and combinations thereof. 10. The photonic device of claim 1 wherein the first bottom diode material includes an n-type dopant and the first top diode material includes a p-type dopant. 11. The photonic device of claim 1 further comprising a contact formed over the first top diode material. 12. The diode of claim 11, further comprising a second contact formed adjacent the substrate. 13. A photonic device comprising: a substrate; anda photonic diode comprising a first region proximate a top surface of the substrate, a second region proximate the first region, and an active region between the first and second regions, whereinthe second region includes a surface adjacent the active region, the surface being generally parallel to the substrate top surface, andthe second region includes at least one defect-trapping region spaced apart from the active region, the defect trapping region being distally located from the substrate top surface, the first region being between the defect trapping region and the substrate top surface. 14. The photonic device of claim 13 wherein a surface of the first region is bonded to a handle substrate. 15. The photonic device of claim 14 wherein an intermediate layer is bonded to the handle substrate between the first region and the handle substrate. 16. The photonic device of claim 14 wherein the handle substrate includes a conductor electrically connected to the first region. 17. The photonic device of claim 14 further comprising a contact connected to the handle substrate and in electrical communication with the first region. 18. A photonic device comprising: a substrate;a dielectric material including a first set of at least two openings and a second set of at least two openings, each of the openings in the first set and the second set exposing a portion of the substrate and having an aspect ratio of at least 1;a first diode comprising: a first bottom diode material comprising a first semiconductor material that is lattice mismatched to the substrate, and wherein the first semiconductor material occupies the first set of at least two openings and is coalesced above the first set of at least two openings;a first top diode material; anda first active diode region between the first top diode material and the first bottom diode material; anda second diode comprising: a second bottom diode material comprising a second semiconductor material that is lattice mismatched to the substrate, and wherein the second semiconductor material occupies the second set of at least two openings and is coalesced above the second set of at least two openings;a second top diode material; anda second active diode region between the second top diode material and the second bottom diode material;wherein the first diode and the second diode are adjacent but not in physical contact, and a separation region is between the first bottom diode material and the second bottom diode material. 19. The photonic device of claim 18, wherein at least one of (i) the second bottom diode material is different from the first bottom diode material, (ii) the second active diode region comprises a material different from a material of the first active diode region, (iii) the second top diode material is different from the first top diode material, or (iv) a combination thereof. 20. The photonic device of claim 18, wherein the separation region comprises a dielectric material.
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