Johnson's figure of merit

Johnson's figure of merit is a measure of suitability of a semiconductor material for high frequency power transistor applications and requirements. More specifically, it is the product of the charge carrier saturation velocity in the material and the electric breakdown field under same conditions, first proposed by Edward O. Johnson of RCA in 1965.^[1]

Note that this figure of merit (FoM) is applicable to both field-effect transistors (FETs), and with proper interpretation of the parameters, also to bipolar junction transistors (BJTs).

Example materials

^[2]

Material	Saturation velocity x10⁵ m/s	V_Breakdown MV/cm	JFM Si=1.0	Notes/refs
Silicon	1.0	0.3	1.0	^[2]
GaAs	1.5	0.4	2.7	^[2]
SiC	2.0	3.5	20	^[2]
InP	0.67	0.5	0.33	^[2]
GaN	2.5	3.3	27.5	^[2]

JFM figures vary wildly between sources - see external links and talk page.

External links

Gallium Nitride as an Electromechanical Material. R-Z. IEEE 2014 Table IV (p 5) lists JFM (relative to Si) : Si=1, GaAs=2.7, SiC=20, InP=0.33, GaN=27.5, also shows V_sat and E_breakdown.
Why diamond? gives very different figures (but no refs) :

      Si   GaAs   GaN   SiC   diamond JFM    1    11    790   410   5800

References

^ "Physical limitations on frequency and power parameters of transistors," RCA Review, vol. 26, pp. 163-177, June 1965.
^ ^a ^b ^c ^d ^e ^f Gallium Nitride as an Electromechanical Material. R-Z. IEEE 2014 Table IV (p 5)

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[1] "Physical limitations on frequency and power parameters of transistors," RCA Review, vol. 26, pp. 163-177, June 1965.

[GaN-2] ^ ^a ^b ^c ^d ^e ^f Gallium Nitride as an Electromechanical Material. R-Z. IEEE 2014 Table IV (p 5)

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