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L. Decoupling-limit, 225 Reflection coefficient, p.225

D. Damper and A. , 182 Acoustic volume flow rate, p.184

. .. Amplitude-influence, 183 B-BH Convection velocity

.. Maximum-absorption-equation, 186 Equation, piston head, p.187

S. .. Mesh-size, 185 Momentum balance, p.184

. .. Low-amplitude, 202, 210 Pressure spectrum L 2 = 0

G. Dispersion-relation, 226 Local minimum, p.226

I. Energy and T. , 175 Experimental setup Burner sketch

D. .. Dimensions, .see Burner F Failure scenarios . . . . . see Damper, Bifurcation diagram False nearest neighbours, 168 FDF Amplitude ranges . . . . . . . . . . 43 Confined vs Unconfined, p.58

.. Flame-tube, 42 Flow rate 42 Frequency range, pp.15-19

. .. Flame-describing-function and .. Holder-dimensions, see Injector Mean velocity56 Pressure relation 53 Specific acoustic impedance see Acoustic impedance Velocity profile, 1 hole, p.57

.. Velocity-relation, 53 Flame images Plate #4, p.117

U. Coupling and F. , 66 Measurements vs FDF, p.67

O. Flame-tube and .. Ftf-definition, see Reflection coefficient Flow variables, convention46 Frequency Experimental . see Self-sustained oscillations Theory . see Prediction Frequency shift Amplitude, same mode, 129 Damper influence . . . . 205, 210 From the eigenmode, pp.172-56

.. Hot-wire, see Diagnostics Hysteresis, pp.129-140

.. Irrotational, 185 J Jet velocity 185 Jump condition see also Flame tube inlet, Flow rate balance Flow rate balance No ring cavity, p.62

L. Ldv-bragg-cell and .. , 43 Counting rate 44 Distance above the hole, FDF measurements, p.56

.. Different, 124 Harmonic coincides with another mode, p.108

B. Damper, H. , H. , and H. , 206 B-BH, f = 683, Measurement setup . . . . . 192 Measurements vs theory, 0195.

.. Measurement, 40 Piston head Relation, p.48