Optical waveguide having several dielectric layers and at least one metal cladding layer

What is claimed is: 1. A waveguide, comprising: a substrate; a plurality of cladding layers present on the substrate and defining at least one tunnel therein, at least one of the cladding layers being made of metal; a first dielectric layer disposed in the tunnel and having a first refractive index N1; a second dielectric layer disposed in the tunnel and having a second refractive index N2; and a third dielectric layer disposed in the tunnel and having a third refractive index N3, and N2>N1 and N2>N3, wherein the second dielectric layer is present between the first and third dielectric layers, wherein at least one of the cladding layers is present between the substrate and the first dielectric layer and protrudes toward the tunnel and away from the substrate, a portion of the first dielectric layer protrudes away from the substrate, and the second and third dielectric layers are conformal to the first dielectric layer. 2. The waveguide of claim 1 , wherein the first and third dielectric layers are respectively in contact with the cladding layers made of metal. 3. The waveguide of claim 1 , further comprising: a fourth dielectric layer disposed in the tunnel, wherein the third dielectric layer is present between the second and fourth dielectric layers, wherein the fourth dielectric layer has a fourth refractive index N4, and N3>N4, wherein the fourth dielectric layer is conformal to the first dielectric layer. 4. A waveguide, comprising: a substrate; a plurality of cladding layers resent on the substrate and defining at least one tunnel therein, at least one of the cladding layers being made of metal; a first dielectric layer disposed in the tunnel and having a first refractive index N1; a second dielectric layer disposed in the tunnel and having a second refractive index N2; a third dielectric layer disposed in the tunnel and having a third refractive index N3 and N2>N1 and N2>N3, wherein the second dielectric layer is present between the first and third dielectric layers; and a fourth dielectric layer disposed in the tunnel, wherein the third dielectric layer is present between the second and fourth dielectric layers, wherein the fourth dielectric layer has a fourth refractive index N4, and N3>N4, wherein the first and fourth dielectric layers are respectively in contact with the cladding layers made of metal. 5. The waveguide of claim 3 , wherein at least one of the first, second third and fourth dielectric layers has a thickness different from that of others of the first, second, third and fourth dielectric layers. 6. The waveguide of claim 3 , further comprising: a fifth dielectric layer disposed in the tunnel, wherein the first dielectric layer is present between the second and fifth dielectric layers, wherein the fifth dielectric layer has a fifth refractive index N5, and N1>N5, wherein the fifth dielectric layer is conformal to the first dielectric layer. 7. The waveguide of claim 6 , wherein the fourth and fifth dielectric layers are respectively in contact with the cladding layers made of metal. 8. A waveguide, comprising: a substrate; a plurality of cladding layers present on the substrate and defining at least one tunnel therein, at least one of the cladding layers being made of metal; a first dielectric layer disposed in the tunnel and having a first refractive index N1; a second dielectric layer disposed in the tunnel and having a second refractive index N2; a third dielectric layer disposed in the tunnel and having a third refractive index N3, and N2>N1 and N2>N3, wherein the second dielectric layer is present between the first and third dielectric layers; and a fourth dielectric layer disposed in the tunnel, wherein the third dielectric layer is present between the second and fourth dielectric layers, wherein the fourth dielectric layer has a fourth refractive index N4, and N3>N4; and a fifth dielectric layer disposed in the tunnel, wherein the first dielectric layer is present between the second and fifth dielectric layers, wherein the fifth dielectric layer has a fifth refractive index N5, and N1>N5, wherein the fourth and fifth dielectric layers are respectively in contact with the cladding layers made of metal, a portion of the fifth dielectric layer protrudes toward the substrate, and the first, second, third and fourth dielectric layers are conformal to the fifth dielectric layer. 9. A waveguide, comprising: a substrate; a plurality of cladding layers present on the substrate and defining at least one tunnel therein, at least one of the cladding layers being made of metal; a first dielectric layer disposed in the tunnel and having a first refractive index N1; a second dielectric layer disposed in the tunnel and having a second refractive index N2; a third dielectric layer disposed in the tunnel and having a third refractive index N3, and N2>N1 and N2>N3, wherein the second dielectric layer is present between the first and third dielectric layers; and a fourth dielectric layer disposed in the tunnel, wherein the third dielectric layer is present between the second and fourth dielectric layers, wherein the fourth dielectric layer has a fourth refractive index N4, and N3>N4; and a fifth dielectric layer disposed in the tunnel, wherein the first dielectric layer is present between the second and fifth dielectric layers, wherein the fifth dielectric layer has a fifth refractive index N5, and N1>N5, wherein the fourth and fifth dielectric layers are respectively in contact with the cladding layers made of metal, wherein the first dielectric layer and the third dielectric layer are connected to surround the second dielectric layer, and the fourth dielectric layer and the fifth dielectric layer are connected to surround the first, second and third dielectric layers. 10. The waveguide of claim 6 , wherein at least two of the first, second, third, fourth and fifth dielectric layers have different thicknesses. 11. A waveguide, comprising: a substrate; a plurality of cladding layers present on the substrate and defining at least one tunnel therein, at least one of the cladding layers being made of metal; a first dielectric layer disposed in the tunnel and having a first refractive index N1; a second dielectric layer disposed in the tunnel and having a second refractive index N2; a third dielectric layer disposed in the tunnel and having a third refractive index N3, and N2>N1 and N2>N3, wherein the second dielectric layer is present between the first and third dielectric layers; and a fourth dielectric layer disposed in the tunnel wherein the third dielectric layer is present between the second and fourth dielectric layers, wherein the fourth dielectric layer has a fourth refractive index N4, and N3>N4; and a fifth dielectric layer disposed in the tunnel, wherein the first dielectric layer is present between the second and fifth dielectric layers, wherein the fifth dielectric layer has a fifth refractive index N5, and N1>N5, wherein the first refractive index N1 is different from the third refractive index N3, and the fourth refractive index N4 is different from the fifth refractive index N5. 12. The waveguide of claim 8 , further comprising: an insulator layer disposed between the substrate and one of the cladding layers, wherein the insulator layer has a concave that receives a portion of the cladding layer. 13. The waveguide of claim 1 , wherein at least one portion of the tunnel has a extending direction, and the extending direction of the tunnel is substantially parallel with a surface of the substrate proximal to the cladding layers. 14. The waveguide of claim 1 , wherein the subs