Generalized Thermal J‐V Characteristic for the Electric Tunnel Effect

The thermal J‐V characteristic for a tunnel junction is derived in terms of a generalized theory. The resulting functional form of the equations is similar to that of Stratton; however, in the present formulation, the physical parameters of the junction appear explicitly, and their effect upon the thermal characteristic is readily appreciated. In Stratton's work, the physical constants appear in the integrand of integral that can be solved only numerically.The theory is applied to symmetric and asymmetric junctions. For the symmetric case, it is shown that, at a given temperature, the percentage change Ĵ in the high‐temperature thermal component of current from the low‐temperature value increases initially with increasing voltage bias up to a maximum peak, and thereafter decreases rapidly. The voltage bias at which the component of thermal current maxima occurs is equal to the interfacial barrier height and, as such, permits what is probably the most accurate method of barrier height determination. Simila...

[1]  D. V. Geppert Space‐Charge‐Limited Tunnel Emission into an Insulating Film , 1962 .

[2]  John G. Simmons,et al.  Low‐Voltage Current‐Voltage Relationship of Tunnel Junctions , 1963 .

[3]  R. Handy Electrode effects on aluminum oxide tunnel junctions , 1962, IRE Transactions on Electron Devices.

[4]  J. Simmons Generalized Formula for the Electric Tunnel Effect between Similar Electrodes Separated by a Thin Insulating Film , 1963 .

[5]  Walter A. Harrison,et al.  Tunneling from an Independent-Particle Point of View , 1961 .

[6]  J. Simmons,et al.  Potential Barrier Shape Determination in Tunnel Junctions , 1963 .

[7]  S. Pollack,et al.  Electron Tunneling through Asymmetric Films of Thermally Grown Al2O3 , 1964 .

[8]  J. C. Penley Tunneling through Thin Films with Traps , 1962 .

[9]  T. E. Hartman,et al.  Tunneling of a Wave Packet , 1962 .

[10]  R. H. Good,et al.  Thermionic Emission, Field Emission, and the Transition Region , 1956 .

[11]  Robert Stratton,et al.  Volt-current characteristics for tunneling through insulating films , 1962 .

[12]  J. Bardeen Tunnelling from a Many-Particle Point of View , 1961 .

[13]  J. Simmons Electric Tunnel Effect between Dissimilar Electrodes Separated by a Thin Insulating Film , 1963 .

[14]  W. Feibelman,et al.  Electron Emission from Thin Al‐Al2O3‐Au Structures , 1962 .

[15]  D. Meyerhofer,et al.  Current Flow in Very Thin Films of Al2O3 and BeO , 1963 .

[16]  J. Simmons,et al.  TEMPERATURE CHARACTERISTICS OF BeO TUNNELING STRUCTURES , 1963 .

[17]  Ivar Giaever,et al.  Tunneling Through Thin Insulating Layers , 1961 .