| Fundamentals of stability theory | p. 1 |
| Concept of hydrodynamic stability | p. 1 |
| Stability of luid motion in time | p. 3 |
| Critical parameters for onset of instability | p. 4 |
| Growth of disturbance energy | p. 6 |
| Formulation of linear hydrodynamic stability problems | p. 7 |
| Inviscid linear stability problem | p. 15 |
| Instability in space | p. 19 |
| Completeness of solutions for the Orr-Sommerfeld and Squire equations | p. 22 |
| Lift-up effect | p. 27 |
| Inviscid algebraic instability | p. 28 |
| Transient disturbance growth | p. 31 |
| Pseudospectra of the linearized Navier-Stokes operator | p. 32 |
| Optimal disturbances | p. 34 |
| Numerical range | p. 37 |
| Development of linear disturbances in near-wall flows | p. 39 |
| The lat plate boundary layer | p. 39 |
| Historical issues | p. 39 |
| Non-parallel effects | p. 44 |
| Wave packets | p. 50 |
| Plane Poiseuille low | p. 57 |
| Theoretical approach | p. 57 |
| Experimental linear stability investigations | p. 58 |
| Transient growth | p. 60 |
| Three-dimensional boundary layers | p. 62 |
| Swept-wing low | p. 62 |
| Flow instability at a concave wall | p. 66 |
| Receptivity of laminar near-wall lows | p. 69 |
| Formulation of receptivity problem | p. 69 |
| Localized and distributed generation | p. 69 |
| Outline of theoretical approaches to receptivity | p. 71 |
| Perturbation analysis | p. 72 |
| Adjoint functions and the `eficiencyÆ of generation | p. 73 |
| Numerical simulation | p. 75 |
| Experimental approaches to the receptivity investigation | p. 75 |
| Receptivity of two-dimensional boundary layers | p. 79 |
| Leading-edge receptivity | p. 80 |
| Receptivity caused by surface geometry variations | p. 82 |
| Excitation of instability waves by spatially localized disturbances | p. 85 |
| Receptivity of a three-dimensional boundary layer | p. 88 |
| Swept-wing receptivity | p. 88 |
| Excitation of Gortler vortices | p. 91 |
| Late stages of transition | p. 93 |
| Onset of non-linearity | p. 93 |
| Amplitude criteria for appearance of non-linearity stimulated by Tollmien-Schlichting wave growth | p. 94 |
| Conditional stability and weakly non-linear theories | p. 95 |
| Basic transition scenarios in quasi-two-dimensional lows | p. 98 |
| K-regime of transition | p. 100 |
| Subharmonic transition | p. 102 |
| Theoretical approaches for the onset of three-dimensionality and breakdown | p. 104 |
| Resonance model of the subharmonic growth | p. 104 |
| Theory of linear secondary linear instability | p. 104 |
| Local high-frequency secondary instability | p. 107 |
| Direct numerical simulations | p. 110 |
| Appearance and development of turbulence | p. 110 |
| Wave combinations and intermittency | p. 1ll |
| Turbulent spots | p. 115 |
| Transition to turbulence in lows modulated by streamwise vortices | p. 119 |
| Instability of crosslow vortices | p. 121 |
| Instability of Gortler vortices | p. 124 |
| Experimental modelling of streamwise vortex instabilities | p. 125 |
| Laminar-turbulent transition at high free-stream turbulence level | p. 131 |
| Streaks in the Blasius boundary layer | p. 132 |
| Experimental and theoretical modelling of the streak development | p. 134 |
| Streak generation at the leading edge | p. 139 |
| Local generation of streaks from the wall | p. 142 |
| Distributed receptivity | p. 147 |
| Transition mechanisms at high free-stream turbulence | p. 154 |
| Tollmien-Schlichting waves in the presence of streaks | p. 155 |
| Interaction of the streaks with Tollmien-Schlichting waves | p. 160 |
| Turbulent spots | p. 162 |
| Transition scenario at a high free stream turbulence | p. 164 |
| Transition to turbulence in separation bubbles | p. 167 |
| Problem formulation, substantiation and approaches | p. 167 |
| Instability of separated lows to small-amplitude disturbances | p. 170 |
| Waveform | p. 171 |
| Growth rates | p. 173 |
| Propagation velocities | p. 177 |
| Instability of an axisymmetric flow | p. 178 |
| Flow instability at separation of a three-dimensional boundary layer | p. 179 |
| Excitation of instability waves in separation bubbles | p. 182 |
| Wave interactions | p. 184 |
| Subharmonic excitation | p. 184 |
| Some other non-linear mechanisms | p. 187 |
| Effects of the initial spectrum on the transition | p. 188 |
| Backward effects of the disturbed low in separation regions | p. 189 |
| Laminar-turbulent transition and the origin of coherent vorticesl92 | |
| Implication of instability to separation control | p. 194 |
| Transition prediction and control | p. 197 |
| Transition prediction on the basis of linear stability theory | p. 198 |
| Basic low control techniques | p. 202 |
| Mean low adjustment | p. 203 |
| Riblets | p. 209 |
| Wave cancellation | p. 213 |
| Engineering application of the wave cancellation technique | p. 215 |
| References | p. 219 |
| Index | p. 265 |
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