Claims
- 1. A composite optical waveguide for use within a photonic integrated circuit with light of a particular wavelength comprising:
- a cutoff mesa waveguide structure comprising a slab layer of thickness t at the upper surface of the mesa, said slab layer being underlain by a lower cladding layer, the mesa waveguide structure having a vertically asymmetric refractive index profile that is controlled by the thickness t and the chemical composition of the slab and the lower cladding layer such that the light does not propagate in a guided mode in the cutoff mesa waveguide structure by itself, the cutoff mesa being further defined by two parallel lateral walls to form an elongated structure; and
- an elongated rib waveguide structure formed atop the cutoff mesa waveguide structure and aligned therewith, the rib waveguide structure having a width less than the width of the cutoff mesa with the width and the chemical composition of the rib waveguide being such that only the TE.sub.00 and TM.sub.00 modes of the light are guided by the combination of the cutoff mesa waveguide structure and the rib waveguide structure in the region beneath the rib waveguide structure and no modes of the light are permitted in other regions of the cutoff mesa waveguide.
- 2. The waveguide of claim 1 wherein the elongated cutoff mesa structure comprises a base layer capped by the lower cladding layer of refractive index n.sub.0 in turn capped by the slab layer of refractive index n.sub.1.
- 3. The waveguide of claim 1 wherein the rib waveguide structure comprises an upper cladding layer placed adjacent to the slab layer, the upper cladding layer having a refractive index of n.sub.3, where n.sub.3 is less than the refractive index of the slab layer.
- 4. The waveguide of claim 2 wherein the refractive index, n.sub.2, of the material present above the slab layer in the regions other than where the rib waveguide is present satisfies the condition n.sub.1 >n.sub.0 >n.sub.2.
- 5. The waveguide of claim 2 wherein the lateral walls extend to at least the depth of the slab layer.
- 6. The waveguide of claim 3 wherein the lateral walls extend past the depth of the slab layer and into the lower cladding layer.
- 7. A composite optical waveguide for use within a photonic integrated circuit with light of a particular wavelength comprising:
- an elongated cutoff mesa structure of width w.sub.1 defined by lateral walls with the cutoff mesa structure comprising a base layer capped by a lower cladding layer of refractive index n.sub.0 in turn capped by a slab layer of refractive index n.sub.1 and thickness t; and
- an elongated rib waveguide structure of width w.sub.2 approximately centered atop the cutoff mesa structure and aligned therewith and comprising an upper cladding layer adjacent to the slab layer, the upper cladding layer having a refractive index of n.sub.3,
- wherein w.sub.1 >w.sub.2 and the refractive index, n.sub.2, of the material present above the slab layer in the regions other than where the upper cladding layer is present satisfies the condition n.sub.1 >n.sub.0 >n.sub.2, such that only the fundamental modes of the light are guided by the composite optical waveguide structure comprising the cutoff mesa structure and the rib waveguide structure.
- 8. The waveguide of claim 7 wherein the lateral walls of the cuttoff mesa structure are at least as high as the depth of the slab layer.
- 9. The waveguide of claim 7 wherein the elongated cutoff mesa structure additionally includes a first graded interface layer between the lower cladding layer and the slab layer.
- 10. The waveguide of claim 9 wherein the waveguide additionally includes a second graded interface layer between the slab layer and the upper cladding layer.
- 11. The waveguide of claim 7 wherein the optical waveguide also includes a first electrode located above the upper cladding layer.
- 12. The waveguide of claim 11 additionally comprising a second electrode formed below the lower cladding layer.
- 13. The waveguide of claim 12 further including a p-n junction formed about the slab layer.
- 14. The waveguide of claim 7 wherein the slab layer comprises GaAs.
- 15. The waveguide of claim 7 wherein the lower cladding layer comprises AlGaAs.
- 16. The waveguide of claim 7 wherein the slab layer comprises GaAs.
- 17. The waveguide of claim 7 wherein the upper cladding layer comprises AlGaAs.
- 18. The waveguide of claim 7 wherein the lateral walls include the slab layer and at least part of the lower cladding layer.
- 19. The waveguide of claim 7 wherein the particular wavelength of light is within a wavelength range of about 1-1.6 .mu.m.
Government Interests
This invention was made with Government support under Contract DE-AC04-94AL85000 awarded by the U.S. Department of Energy. The Government has certain rights in the invention.
US Referenced Citations (8)