Quantum cascade laser

What is claimed is: 1. A quantum cascade laser comprising: a semiconductor region having a main surface including a first region and a second region arranged in a first axis direction; a stacked semiconductor layer disposed on the second region of the semiconductor region, the stacked semiconductor layer including a core layer and an upper cladding layer disposed on the core layer; and a distributed Bragg reflector disposed on the first region of the semiconductor region, the distributed Bragg reflector including at least one semiconductor wall having a side surface extending in a second axis direction perpendicular to the main surface of the semiconductor region, the semiconductor wall including the core layer and the upper cladding layer, wherein the side surface of the semiconductor wall is optically coupled to an end facet of the stacked semiconductor layer, and the side surface of the semiconductor wall includes a side surface of the core layer having a recess portion depressed from a side surface of the upper cladding layer in the semiconductor wall. 2. The quantum cascade laser according to claim 1 , wherein the side surface of the core layer in the semiconductor wall includes a first portion, a second portion, and a third portion that are arranged in the second axis direction, the third portion being disposed between the first and second portions, the first portion of the core layer in the semiconductor wall has an inclined side surface that is inclined inward from the upper cladding layer toward the semiconductor region, the second portion of the core layer in the semiconductor wall has an inclined side surface that is inclined outward from the upper cladding layer toward the semiconductor region, and the third portion of the core layer in the semiconductor wall has a deepest portion of the recess portion. 3. The quantum cascade laser according to claim 1 , wherein the side surface of the core layer in the semiconductor wall includes a first portion, a second portion, and a third portion that are arranged in the second axis direction, the third portion being disposed between the first and second portions, the first portion of the core layer in the semiconductor wall has a side surface having an inverted mesa shape, the second portion of the core layer in the semiconductor wall has a side surface having a normal mesa shape, and the third portion of the core layer in the semiconductor wall includes a deepest portion of the recess portion. 4. The quantum cascade laser according to claim 1 , wherein the recess portion of the core layer in the semiconductor wall has a concave structure configured to converge light reflected by the semiconductor wall toward the end facet of the stacked semiconductor layer. 5. The quantum cascade laser according to claim 1 , wherein the core layer has a thickness of 1.5 μm or more. 6. The quantum cascade laser according to claim 1 , wherein the core layer includes a multi quantum well structure including an AlInAs layer and an InGaAs layer that are alternately stacked. 7. The quantum cascade laser according to claim 1 , further comprising: a semiconductor mesa extending in the first axis direction, the semiconductor mesa including the stacked semiconductor layer; a first trench and a second trench that define the semiconductor mesa; and a first terrace and a second terrace that are extended in the first axis direction, wherein the first trench is defined by the first terrace and the semiconductor mesa, the second trench is defined by the second terrace and the semiconductor mesa, the semiconductor wall is extended in a direction intersecting with the first axis direction, and the semiconductor wall has one end connected to the first terrace and the other end connected to the second terrace. 8. The quantum cascade laser according to claim 1 , further comprising: a semiconductor mesa extending in the first axis direction, the semiconductor mesa including the stacked semiconductor layer; and a buried region disposed on side surfaces of the semiconductor mesa so as to embed the semiconductor mesa, wherein the semiconductor wall is extended in a direction intersecting with the first axis direction, and the semiconductor wall has one end and the other end opposite to the one end that are connected to the buried region.