Photodiode having a superlattice structure

What is claimed is: 1. A photodiode comprising: a light absorbing layer including a first superlattice structure that includes first semiconductor layers and second semiconductor layers, the first superlattice structure having a band structure sensitive to infrared light; a p-type semiconductor region; and an intermediate layer including a second superlattice structure that includes first semiconductor layer and second semiconductor layers, the intermediate layer being disposed between the p-type semiconductor region and the light absorbing layer, the intermediate layer having a conduction band having a bottom energy level lower than that of the p-type semiconductor region, wherein the first superlattice structure of the light absorbing layer has an array of unit cells each of which includes the first semiconductor layers and the second semiconductor layers of the first superlattice structure, each of the first semiconductor layers of the first superlattice structure contains gallium as a group III element, and antimony as a group V element, each of the second semiconductor layers of the first superlattice structure contains indium as a group III element, and arsenic as a group V element, the second superlattice structure of the intermediate layer has an array of unit cells each of which includes the first semiconductor layers and the second semiconductor layers of the second superlattice structure, the conduction band of the intermediate layer is provided by the second superlattice structure, each of the first semiconductor layers of the second superlattice structure contains gallium as a group III element, and antimony as a group V element, and each of the second semiconductor layers of the second superlattice structure contains indium as a group III element, and arsenic as a group V element. 2. The photodiode according to claim 1 , wherein the p-type semiconductor region has a conduction band provided by a third superlattice structure, and the conduction band of the intermediate layer has a bottom energy level lower than that of the light absorbing layer. 3. The photodiode according to claim 1 , wherein the intermediate layer has a p-type conductivity. 4. A photodiode comprising: a light absorbing layer including a first superlattice structure that includes first semiconductor layers and second semiconductor layers, the first superlattice structure having a band structure sensitive to infrared light; a p-type semiconductor region having a conduction band provided by a second superlattice structure; and an intermediate layer disposed between the p-type semiconductor region and the light absorbing layer, the intermediate layer having a conduction band having a bottom energy level lower than that of the p-type semiconductor region and lower than that of the light absorbing layer. 5. A photodiode comprising: a light absorbing layer including a first superlattice structure that includes first semiconductor layers and second semiconductor layers, the first superlattice structure having a band structure sensitive to infrared light; a p-type semiconductor region; and an intermediate layer including a second superlattice structure that includes first semiconductor layers and second semiconductor layers, the intermediate layer being disposed between the p-type semiconductor region and the light absorbing layer, the intermediate layer having a conduction band having a bottom energy level lower than that of the p-type semiconductor region, wherein each of the first semiconductor layers of the first superlattice structure contains gallium as a group III element, and antimony as a group V element, each of the second semiconductor layers of the first superlattice structure contains indium as a group III element, and arsenic as a group V element, the conduction band of the intermediate layer is provided by the second superlattice structure, each of the first semiconductor layers of the second superlattice structure contains gallium as a group III element, and antimony as a group V element, and each of the second semiconductor layers of the second superlattice structure contains indium as a group III element, and arsenic as a group V element. 6. The photodiode according to claim 5 , wherein the p-type semiconductor region has a conduction band provided by a third superlattice structure, and the conduction band of the intermediate layer has a bottom energy level lower than that of the light absorbing layer. 7. The photodiode according to claim 5 , wherein the intermediate layer has a p-type conductivity. 8. A photodiode comprising: a light absorbing layer including a first superlattice structure; a p-type semiconductor region; and an intermediate layer including a second superlattice structure that includes first semiconductor layers and second semiconductor layers, the intermediate layer being disposed between the p-type semiconductor region and the light absorbing layer, and having a conduction band, the conduction band of the intermediate layer having a bottom energy level lower than that of the p-type semiconductor region, wherein the first superlattice structure has unit cells, each of the unit cells including a first semiconductor layer and a second semiconductor layer, the unit cells being arranged to form a band structure sensitive to infrared light, the first semiconductor layers of the first superlattice structure contain gallium as a group III element, and antimony as a group V element, the second semiconductor layers of the first superlattice structure contain indium as a group III element, and arsenic as a group V element, the conduction band of the intermediate layer is provided by the second superlattice structure, each of the first semiconductor layers of the second superlattice structure contains gallium as a group III element, and antimony as a group V element, and each of the second semiconductor layers of the second superlattice structure contains indium as a group III element, and arsenic as a group V element. 9. The photodiode according to claim 8 , wherein the p-type semiconductor region has a conduction band provided by a third superlattice structure, and the conduction band of the intermediate layer has a bottom energy level lower than that of the light absorbing layer. 10. The photodiode according to claim 8 , wherein the intermediate layer has a p-type conductivity.