Ion energy

Ion energy loss spectrum. A spectrum that shows the loss of translation energy among ions involved in ion/neutral reactions. 

The spectroscopy of ion lasers is generally less well understood than that of neutral atom lasers because of the lack of detailed knowledge of ion energy-level schemes. Indeed, ion lasers were first produced accidentally and attempts to assign the transitions came later. 

The physical removal of surface material is called sputtering, where energetic, chemically inert ions such as Ar" or Xe" are accelerated toward the wafer and physically eject material from the surface. The yield is defined as the ratio of the number of ejected surface atoms to the number of incoming ions per given ion energy. 

Figure 7 shows a contribution from ion energy straggling in the sample. This, of course, is zero for near-surface layers and gets rapidly worse for layers several thousand A deep, or for (a, <[)) in grazing configurations. 

The curve labeled geometry illustrates the kinematic energy spread due to the finite acceptance angle of the detector. The multiple scattering contribution arises from the spread in ion energies introduced by secondaiy scattering events. 

Ni(IIO). The top part of the figure shows the scattering geometry. The primary ion energy was 101 keV. 

Fig. 3.21. SIMS spectra obtained from a high-speed steei. (A) primary ions OJ no secondary ion energy iimitation eiec-tropositive eiements are sensitive many moiecuie ions are visibie. (B) same conditions but 300 Voffset was used the moiecuie ion intensities are reduced significantiy. (C) Primary ions Cs" 300 Voffset was used therefore eiectronegative eiements are detected more sen-sit iveiy.

After post-ionization in the 3 cm long cylindrical plasma space between sample surface and the opposite wall, SN" enter a 90° electrostatic ion energy analyzer (ion optics) suppressing ionized plasma gas particles to a degree of 10 -10 noise levels are correspondingly low (1 cps). The transmission of the electrostatic ion optics is in the range of a few per cent. 

A solid sample is bombarded with a stream of inert gas ions. Some of these ions are backscattered with some loss of energy after colliding with the surface atoms. Analysis of the scattered ion energies is done for identification of the surface atoms present. 

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