Systems and methods for turbine engine particle separation

What is claimed is: 1. A turbine engine incorporating a fine particle separation means, the turbine engine comprising: a radial compressor that rotates about an axis, and which compresses air fed thereto; a diffuser located downstream and radially outward, with respect to a longitudinal axis of the turbine engine, from the radial compressor, and which decreases a velocity of and increases a static pressure of the compressed air exiting the radial compressor; a flow path positioned downstream, with respect to the longitudinal axis, from the diffuser, wherein the flow path comprises an outer annular wall and an inner annular wall between which the compressed air flows, and wherein the flow path comprises an arc that redirects the compressed air from flowing in a substantially radial flow direction to a substantially axial flow direction; an extraction slot in the outer annular wall that fluidly connects with a scavenge plenum, the scavenge plenum being positioned adjacent to and radially outward, with respect to the longitudinal axis, from the outer annular wall at a position downstream axially along the flow path from the arc, the extraction slot also being positioned downstream axially along the flow path from the arc, wherein the extraction slot comprises a radial spacing between the outer annular wall of the flow path and an inner radial wall of the scavenge plenum, the extraction slot configured to direct a portion of the compressed air containing fine particles from the flow path into the scavenge plenum, the scavenge plenum configured to separate the fine particles from the portion of the compressed air; and an aspiration slot, downstream from the extraction slot with respect to a flow along the flow path, the scavenge plenum configured to recirculate the portion of compressed air in the scavenge plenum back into the flow path using the aspiration slot, wherein the aspiration slot comprises an opening from the scavenge plenum to a deswirl assembly positioned downstream from the extraction slot with respect to the flow along the flow path that passes through the inner radial wall of the scavenge plenum, such that the aspiration slot directs the portion of compressed air back into the flow path at the deswirl assembly. 2. The turbine engine of claim 1 , wherein the flow path comprises a portion of the deswirl assembly. 3. The turbine engine of claim 2 , wherein the deswirl assembly comprises a plurality of vanes that reduce a tangential component of the compressed air, the plurality of vanes being located downstream from the arc. 4. The turbine engine of claim 3 , wherein the scavenge plenum is positioned adjacent to and radially outward from, with respect to the longitudinal axis, the plurality of vanes. 5. The turbine engine of claim 4 , wherein the aspiration slot is oriented axially upstream with respect to the flow path. 6. The turbine engine of claim 4 , comprising a plurality of extraction slots and a plurality of aspiration slots. 7. The turbine engine of claim 4 , wherein a blade shape of the plurality of vanes of the deswirl assembly are configured to sort fine particles to a shroud of the turbine engine. 8. The turbine engine of claim 1 , further comprising a combustion section immediately downstream of the flow path. 9. The turbine engine of claim 1 , wherein the turbine engine is a propulsion-type turbine engine or an auxiliary power unit (APU).