Proceedings of the International School of Physics "Enrico Fermi.", Volume 22N. Zanichelli, 1963 - Nuclear physics |
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Page 303
... Indium antimonide . The oscillatory magneto - absorption spectra of the direct transition in indium antimonide [ 10 ] have been observed by the Lincoln group . The experimental results at room temperature are shown in Fig . 38 in which ...
... Indium antimonide . The oscillatory magneto - absorption spectra of the direct transition in indium antimonide [ 10 ] have been observed by the Lincoln group . The experimental results at room temperature are shown in Fig . 38 in which ...
Page 312
... indium antimonide and also is shown in Fig . 44 for germanium . In indium antimonide , indium arsenide and germanium , the rotation at short wavelengths becomes negative so that the contribution to the Faraday angle from the interband ...
... indium antimonide and also is shown in Fig . 44 for germanium . In indium antimonide , indium arsenide and germanium , the rotation at short wavelengths becomes negative so that the contribution to the Faraday angle from the interband ...
Page 317
... indium antimonide and indium arsenide , the contribution to ya should vary with energy ( or higher values of the magnetic quantum number n ) . We know that , since the effect is fundamentally an orbital effect , we are summing over ...
... indium antimonide and indium arsenide , the contribution to ya should vary with energy ( or higher values of the magnetic quantum number n ) . We know that , since the effect is fundamentally an orbital effect , we are summing over ...
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absorption acceptor approximation band edge band structure Brillouin zone calculated carrier Chem coefficient compound concentration conduction band constant corresponding crystal cyclotron resonance density diffusion direction donor doping effective mass electric field energy gap energy surfaces equation equilibrium example exciton experimental expression Faraday rotation foreign atoms free electron frequency germanium given hence holes imperfections impurity indium antimonide InSb interaction interband ionization ions Journ K,PM K₁ lattice levels linear liquid magnetic field matrix measurements melt mobility momentum N₁ obtained optical p-type phase phonon Phys potential pressure quantum range reciprocal lattice region Rendiconti S.I.F. samples scattering semiconductors shown in Fig solid spin-orbit structure elements symmetry temperature tensor theory thermodynamic potentials transition transverse valence band Voigt effect wave functions wave vector Zeeman effect zero zone