Applies direct-adjoint eigenmode analysis and biorthogonal decomposition to quantify how a reacting base state modifies Kelvin-Helmholtz instability receptivity in a compressible temporal mixing layer.
Jour- nal of Fluid Mechanics127, 59–81 (1983)
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Receptivity and Biorthogonal Decomposition in a Reacting Temporal Mixing Layer
Applies direct-adjoint eigenmode analysis and biorthogonal decomposition to quantify how a reacting base state modifies Kelvin-Helmholtz instability receptivity in a compressible temporal mixing layer.