Semiconductor Laser and Laser Radar Device Having the Semiconductor Laser

What is claimed is: 1 . A semiconductor laser comprising: an active layer which emits laser light; and cladding layers being formed so as to sandwich the active layer, wherein the active layer comprises a quantum dot layer including a plurality of quantum dots, which respectively confine movements of carriers in the three-dimensional directions. 2 . The semiconductor laser according to claim 1 , wherein the active layer comprises at least two quantum dot layers, wherein the active layer comprises a multi-layered structure which the at least two quantum dot layers are stacked. 3 . The semiconductor laser according to claim 1 , wherein the quantum dot layer comprises a low-density area of which arrangement density of the quantum dots is lower than the other areas. 4 . The semiconductor laser according to claim 1 , further comprising: a stripe electrode being formed in a straight band-like shape, wherein the quantum dot layer comprises a low-density area of which arrangement density of the quantum dots is lower than the other areas, the low-density area is arranged in a stripe-area, corresponding to the stripe electrode. 5 . The semiconductor laser according to claim 4 , wherein the low-density area is arranged in a window-area, of the stripe-area, corresponding to a laser light emitting part which laser light is emitted. 6 . The semiconductor laser according to claim 2 , further comprising: a stripe electrode being formed in a straight band-like shape, wherein the multi-layered structure is a structure which window-formed quantum dot layers are stacked as the quantum dot layers, the window-formed quantum dot layer includes low-density areas of which arrangement density of the quantum dots are lower than the other areas, the low-density areas are arranged in window-areas, of stripe-areas corresponding to the stripe electrode, corresponding to a laser light emitting part which laser light is emitted. 7 . The semiconductor laser according to claim 2 , wherein the multi-layered structure is a structure which even dot layers and uneven dot layers are stacked alternately, the even dot layers include the quantum dots, being formed in almost the whole of the respective quantum dot layers, and the uneven dot layers include non-dot areas, in which the quantum dots are not formed. 8 . The semiconductor laser according to claim 7 , wherein the non-dot areas are arranged in window-areas corresponding to laser light emitting part which laser light is emitted, in the respective uneven dot layers. 9 . The semiconductor laser according to claim 2 , wherein the multi-layered structure is a structure which even dot layers and uneven dot layers are stacked so that the even dot layers sandwich the uneven dot layers, the even dot layers include the quantum dots, being formed in almost the whole of the respective quantum dot layers, and the uneven dot layers include non-dot areas, in which the quantum dots are not formed. 10 . The semiconductor laser according to claim 9 , wherein the non-dot areas are arranged in center-areas, including center parts of the uneven dot layers. 11 . The semiconductor laser according to claim 5 , wherein the quantum dot layer comprises size different structure which sizes of the quantum dots, formed in the low-density areas, are larger than sizes of the quantum dots, formed in the areas other than the low-density areas. 12 . The semiconductor laser according to claim 5 , wherein the quantum dot layer comprises composition-different structures which compositions of the quantum dots, formed in the low-density areas, are different from compositions of the quantum dots, formed in the areas other than the low-density areas. 13 . The semiconductor laser according to claim 5 , wherein the window-areas have lengths, of the direction along by an end surface of the active layer, being extended than the stripe-areas, in the respective quantum dot layers. 14 . The semiconductor laser according to claim 5 , wherein the window-areas have lengths, of the direction along by an end surface of the active layer, being extended than the stripe-areas, as they gradually approach the end surface of the active layer, in the respective quantum dot layers. 15 . A laser radar device comprising: a light projection part which projects laser light; and a light receiving part which receives reflected light of the laser light, wherein the light projection part comprises a semiconductor laser and a scanner which reflects the laser light, emitted from the semiconductor laser, to form a scanning laser light, wherein the semiconductor laser comprises an active layer which emits laser light and cladding layers being formed so as to sandwich the active layer, wherein the active layer comprises a quantum dot layer including a plurality of quantum dots, which respectively confine movements of carriers in the three-dimensional directions. 16 . The laser radar device according to claim 15 , wherein the active layer comprises at least two quantum dot layers, wherein the active layer comprises a multi-layered structure which the at least two quantum dot layers are stacked. 17 . The laser radar device according to claim 15 , wherein the quantum dot layer comprises a low-density area of which arrangement density of the quantum dots is lower than the other areas. 18 . The laser radar device according to claim 15 , further comprising: a stripe electrode being formed in a straight band-like shape, wherein the quantum dot layer comprises a low-density area of which arrangement density of the quantum dots is lower than the other areas, the low-density area is arranged in a stripe-area, corresponding to the stripe electrode.