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References
Cho, A. Y. Growth of periodic structures by the molecular beam method Appl. Phys. Lett. 19 467–468 (1971)
Cho, A.Y. Film deposition by molecular beam techniques J. Vac. Sci. Technol. 8 S31–S38 (1971)
Cho, A.Y. Ga As epitaxy by molecular beam methods Observations of surface structure on the (001) face J. Appl. Phys. 42 2074–2081 (1971)
Cho, A.Y., Hayashi, I. Epitaxy of silicon doped gallium arsenide by molecular beam method Met. Trans. 2 777–780 (1971)
Cho, A-Y., Hayashi, I. Surface structures and photoluminescence of molecular beam epitaxial films of Ga As Solid-State Electron. 14 125–132 (1971)
Cho, A.Y., Hayashi, I. P-n junction formation during molecular beam epitaxy of Ge-doped Ga As J. Appl. Phys. 42 4422–4425 (1971)
Cho, A. Y., Parti sh, M.B., Hayashi, I. Molecular beam epitaxy of Ga As, A1xGai-xAs and GaP Proc. 3rd Int. Symp. on Ga As and Related Compounds (Adlard & Son, London, 1971 ) 18–29 (1971)
Cho, A.Y, Stokowsk, S.E. Molecular beam epitaxy and optical evaluation of A1xGal-xAs Solid State Commun. 9 565–568 (1971)
Stafeev, V.I Many layer structures consisting of a large number of p-h junctions Fiz. Tekh. Poluprov. 5 408–416 (1971)
Kazarinov, R.F., Shmartsev, Y.VT Optical phenomena due to the carriers in a semiconductor with a superlattice Fiz. Tekh. Poluprov. 5 800–802 (1971)
S.A. Ktitorov, G.S Simin 1971 Sindalovskii, V-YT Bragg reflections and the high-frequency conductivity of an electronic solid-state plasma. Fiz. Tverd. Tela 13. 2230-2233
Kazarinov, R.F., Suris, R.A. T Possibility of the amplification of electromagnetic waves in a semiconductor with a superlattice Fiz. Tekh. Poluprov. 5 797–800 (1971)
Ktitorov, S.A, Simin, G.S., Sindalovskii, V-YT Bragg reflections and the high-frequency conductivity of an electronic solid-state plasma Sov. Phys. Solid State 13 (1972) 1872–1874
Ktitorov, S.A, Simin, G.S., Sindalovskii, V-YT Bragg reflections and the high-frequency conductivity of an electronic solid-state plasma Fiz. Tverd. Tela 13 (1971) 2230–2233 (1971)
Romanov, Y-A. Periodic semiconductor structures consisting of very thin films Sov. Phys. Semicond. 5 (1972) 1256–1263
Romanov, Y-A. Periodic semiconductor structures consisting of very thin films Fiz. Tekh. Poluprov. 5 (1971) 1434–1444 (1971)
Kazarinov, R.F., Suris, R.A. T Possibility of the amplification of electromagnetic waves in a semiconductor with a superlattice Fiz. Tekh. Poluprov. 5 797–800 (1971)
Stafeev, V.I Many layer structures consisting of a large number of p-h junctions Fiz. Tekh. Poluprov. 5 408–416 (1971)
Tsu, R., Esaki, L. Nonlinear optical response of conduction electrons in a superlattice Appl. Phys. Lett. 19 246–248 (1971)
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© 1984 Springer-Verlag Berlin Heidelberg
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Ploog, K., Graf, K. (1984). Subject Categories and References Year 1971. In: Molecular Beam Epitaxy of III–V Compounds. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-69580-3_3
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