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LOW‐WORK‐FUNCTION SURFACES FOR NEGATIVE‐ELECTRON‐AFFINITY PHOTOEMITTERS
1.J. J. Scheer and J. van Laar, Solid State Commun. 3, 189 (1965).
2.R. C. Eden, J. L. Moll, and W. E. Spicer, Phys. Rev. Letters 18, 597 (1967).
3.A. A. Turnbull and G. B. Evans, J. Phys. D 1, 155 (1968).
4.J. J. Uebbing and R. L. Bell, Proc. IEEE 56, 1624 (1968).
5.J. J. Uebbing (private communications).
6.John E. Davey, J. Appl. Phys. 28, 1031 (1957).
7.P. G. Borziak, V. F. Bibik, and G. S. Kramerenko, Akad. Nauk SSR, Bull Phys. Series 20, 939 (1956).
8.It is interesting to note here that if one assumes that the Ag particles in the commercial S‐1 (Ag‐Cs‐O) photosurfaces are surrounded by one obtains an explanation for the infrared yield which is in complete agreement with the one given by A. H. Sommer, RCA Review 28, 543 (1967).
9.R. L. Anderson, Solid State Electron. 5, 341 (1962).
10.S. S. Perlman and D. L. Feucht, Solid State Electron. 7, 911 (1964).
11.H. Sonnenberg (unpublished). In this reference, the influence of the electrical quality of the crystal on photoemission is explained.
12.P. G. Borziak, Compt. Rend. 31, 546 (1941).
13.B. Mularie (private communication).
14.B. V. Dore, D. V. Geppert, R. S. Muller, and W. E. Spicer, J. Appl. Phys. 38, 3353 (1967).
15.P. Zalm, Advan. Electron. Electron Phys. 211 (1968), offers an alternative explanation for BaO.
16.H. Sonnenberg (unpublished). This reference shows that the experimental results on GaAs‐Cs‐Sb of Minoru Hagino and Ryozo Nishida [Japan J. Appl. Phys. 8, 123 (1969)] appear to be in agreement with the heterojunction model.
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