The receptivity to fundamental and subharmonic secondary instabilities
is analysed for two-dimensional boundary layers. Fundamental modes ar
e excited by the direct scattering of Tollmien-Schlichting (TS) waves
over surface variations. The excitation of subharmonic modes stems fro
m the combined scattering of acoustic free-stream disturbances and TS
waves over surface variations. The surface variations are localized in
their streamwise extent and are the result of roughness or suction. T
he velocity field is expanded in terms of small parameters characteriz
ing the acoustic disturbance and the surface variation. The TS wave is
included as part of the base flow leading to a non-homogeneous system
with periodic coefficients governing the receptivity. The receptivity
amplitudes show a strong dependence on the TS-wave amplitude, and for
subharmonic modes a strong dependence on the TS-wave phase at the loc
ation of the surface variation. The receptivity analysis shows a signi
ficant bias toward fundamental modes of secondary instability for larg
er TS-wave amplitudes - except for conditions of extremely high free-s
tream sound level. A combination of receptivity results and stability
results suggests a bias toward subharmonic modes for TS-wave amplitude
s below 0.5% and toward fundamental modes for TS-wave amplitudes above
0.5% (normalized by the local edge velocity).