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UltraHigh Vacuum Evaporators and Residual Gas Analysis
Theory and Calculations of Optical Thin Films
Methods of Determining the Optical Constants of Evaporated Films
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absorption aluminum aluminum films angle of incidence anisotropy annealing Appl atoms beam Bloch walls bulk material calculation condensation critical field critical temperature crystal curve determined diffusion pump domain walls easy axis effect electrical electron diffraction energy gap evaporated films experimental filament film combination film materials film thickness films evaporated function germanium glass grating Hass heating helium hysteresis impurity incidence angle increase Instr lattice layer low temperature magnetic field mean free path measurements metal method MgF2 microscope multilayer nickel observed obtained optical constants oxide parameters penetration depth Permalloy Permalloy films phase Phys Physik plane platinum films Proc pump reflectance of evaporated region residual gases resistivity rotation sample shown in Fig specimen stress structure studies substrate substrate temperature superconducting surface switching technique theory thermal thin film tion Torr transition ultra-high vacuum vacuum system vacuum ultraviolet reflectance wall motion wavelength