The liquidus surface and tie-lines in the iron-nickel-sulfur system between 1473 and 1673 K

The liquidus compositions and the tie-lines for the solid alloy plus liquid sulfide two-phase region were determined for the iron-nickel-sulfur system in the temperature range 1473 to 1673 K. Experiments were conducted by sampling the liquid sulfide in equilibrium with the alloy phase and chemically analyzing the sulfide. The alloy was quenched and analyzed by electron microprobe. The results represent a significant revision to existing data.     

Extension of the Gunn-effect theory given by Robson and Mahrous

Using Fourier analysis, expressions are derived for the power output and efficiency of a cavity-controlled Gunn-effect oscillator. This treatment predicts an optimum efficiency of 7.2% when the applied bias voltage is equal to 1.9 times the threshold voltage and the load resistance is equal to 8.6 times the low-field resistance of the GaAs wafer. The theoretical results are compared with the experimental resulu report by Dow, Mosher and Vane.