Turbine engine assembly including a rotating detonation combustor

What is claimed is: 1. A rotating detonation combustor comprising: a combustion chamber configured for a rotating detonation process to produce a flow of combustion gas; an air plenum configured to contain a volume of air, the air plenum defined by a first wall, a second wall having an air inlet therethrough for providing a flow of air into the air plenum, and a third wall coupling a first end of the first wall and a first end of the second wall, the first wall and the second wall converging at a second end of the first wall and a second end of the second wall to define a throat therebetween; a flow passage coupled in flow communication between said combustion chamber and an inlet of the throat of said air plenum and configured to channel an airflow from said air plenum into the combustion chamber, wherein said flow passage is defined between a first sidewall extending from the second end of the first wall to the combustion chamber and a second sidewall extending from the second end of the second sidewall to the combustion chamber, and at least one of the first sidewall or the second sidewall includes a plurality of flow passage fuel mixing mechanisms thereon; a fuel inlet extending through one of first sidewall or the second sidewall and coupled in flow communication with said flow passage and configured to channel a fuel flow into said flow passage, wherein said plurality of flow passage fuel mixing mechanisms are configured to mix said airflow and said fuel flow within said combustion chamber; and a splitter wall arranged within the air plenum, the splitter wall having a first end coupled to the third wall and a second end extending at least partially into said flow passage between the first sidewall and the second sidewall, wherein said splitter wall includes a first side and a second side opposite the first side, and at least one of the first side or the second side includes a plurality of splitter wall fuel mixing mechanisms thereon extending into the flow passage, wherein the splitter wall comprises a plurality of openings positioned within the air plenum upstream of the flow passage, the plurality of openings enabling airflow from the air inlet through the splitter wall to fill the air plenum. 2. The rotating detonation combustor according to claim 1 , wherein the plurality of flow passage fuel mixing mechanisms comprise a plurality of flow passage corrugations on at least one of the first sidewall or the second sidewall. 3. The rotating detonation combustor according to claim 2 , wherein the plurality of splitter wall fuel mixing mechanisms comprise a plurality of splitter corrugations on at least one of the first sidewall or the second sidewall. 4. The rotating detonation combustor according to claim 3 , wherein the plurality of flow passage corrugations and the plurality of splitter corrugations are arranged to define a wave-shaped slot in the flow passage. 5. The rotating detonation combustor according to claim 1 , wherein the splitter wall divides the air plenum into a first portion and a second portion, and the splitter wall includes said plurality of openings therethrough to allow a flow of air to flow between the first portion and the second portion. 6. A rotating detonation combustor comprising: a combustion chamber configured for a rotating detonation process to produce a flow of combustion gas; an air plenum configured to contain a volume of air, the air plenum defined by a first wall, a second wall having an air inlet therethrough for providing a flow of air into the air plenum, and a third wall coupling a first end of the first wall and a first end of the second wall; a first sidewall extending from the first wall to the combustion chamber and a second sidewall extending from the second wall to the combustion chamber, the first sidewall and the second sidewall defining a flow passage therebetween, said flow passage coupled in flow communication between said combustion chamber and said air plenum and configured to channel an airflow from said air plenum into the combustion chamber; an air flow splitter wall arranged within the air plenum, the air flow splitter wall having a first end extending from the third wall of the air plenum and a second end extending at least partially within said flow passage between said first sidewall and said second sidewall, wherein the air flow splitter wall comprises a plurality of openings positioned within the air plenum upstream of the flow passage, the plurality of openings enabling airflow from the air inlet through the air flow splitter wall to fill the air plenum; a plurality of fuel mixing mechanisms coupled to at least one of said air flow splitter wall, said first sidewall, or said second sidewall; and a plurality of fuel inlets extending through at least one of the first sidewall or the second sidewall and coupled in flow communication with said flow passage and configured to channel a fuel flow into said flow passage, wherein said plurality of fuel mixing mechanisms are configured to mix said airflow and said fuel flow within said combustion chamber. 7. The rotating detonation combustor in accordance with claim 6 , wherein said first and second sidewall include said plurality of fuel mixing mechanisms, and wherein said air flow splitter wall does not include said plurality of fuel mixing mechanisms. 8. The rotating detonation combustor in accordance with claim 6 , wherein said first sidewall and said second sidewall include a first plurality of fuel mixing mechanisms of said plurality of fuel mixing mechanisms, and wherein said air flow splitter wall includes a second plurality of fuel mixing mechanisms of said plurality of fuel mixing mechanisms. 9. The rotating detonation combustor in accordance with claim 6 , wherein said air flow splitter wall includes said plurality of fuel mixing mechanisms, and wherein said plurality of fuel mixing mechanisms comprise a plurality of corrugations. 10. The rotating detonation combustor in accordance with claim 6 , wherein said first sidewall includes a first plurality of fuel inlets of said plurality of fuel inlets defined therethrough and wherein said second sidewall includes a second plurality of fuel inlets of said plurality of fuel inlets defined therethrough. 11. The rotating detonation combustor in accordance with claim 6 , wherein said plurality of fuel inlets are formed in said air flow splitter wall. 12. The rotating detonation combustor in accordance with claim 11 , wherein at least one fuel inlet of said plurality of fuel inlets is obliquely oriented with respect to a centerline of the rotating detonation chamber such that fuel is injected at an angle into said combustion chamber. 13. The rotating detonation combustor according to claim 6 , wherein the plurality of fuel mixing mechanisms comprise a plurality of corrugations on at least one of said air flow splitter wall, said first sidewall, or said second sidewall. 14. The rotating detonation combustor according to claim 13 , wherein the air flow splitter wall includes a first side and a second side, and the plurality of corrugations are included on the first side and the second side. 15. The rotating detonation combustor according to claim 14 , wherein the first sidewall of the flow passage and the second sidewall of the flow passage include the plurality of corrugations. 16. The rotating detonation combustor according to claim 15 , wherein the first sidewall and the first side of the air flow splitter wall are arranged in the flow passage opposing one another, and the plurality of corrugations on the first sidewall and the plurality of cor