Electrostatic acceleration

In this mode, ions are formed continuously in the ion source (a), but the electrostatic accelerating potential is applied in pulses (b). Thus, a sample of ions is drawn into the drift region (c) with more ions formed in the source. As shown in Figure 26.1, the ions separate according to m/z values (d) and arrive at the detector (e), the ions of largest m/z arriving last. 

The mass separated, pulsed, and focused primary ions with the energy of 1 -25 keV, typically liquid metal ions such as Ga, Cs, and O", are used to bombard the sample surface, causing the secondary elemental or cluster ions to emit from the surface. The secondary ions are then electrostatically accelerated into a field-free drift region with a nominal kinetic energy of ... 

F. Hinterberger, Electrostatic accelerators, in Proceedings of CERN Accelerator School and KVI Specialised CAS Course on Small Accelerator, D. Brandt (Ed.), CERN, Geneva, CERN 2006 012, 95 112 (2006). 

Sample Preparation for Electrostatic Accelerator Dating of Radiocarbon... 

Graphite produces the large beam currents desirable in electrostatic accelerator dating of radiocarbon. However, samples to be dated can be converted to other forms of carbon with less effort, and still provide satisfactory results. 

All carbon samples could easily be oxidized to C02, a form of the sample greatly preferred by most users, for many reasons. Neither the on-line or dedicated electrostatic accelerators under construction have succeeded in overcoming the problem of too much memory of C02 gas. Consequently, the sample presented to the cesium sputter beam source will probably have to be a solid. The cesium sputter source is the most likely to be used because it can produce negative ions of carbon in microampere beams. 

Rubin, M., Sample Preparation for Electrostatic Accelerator Dating of Radiocarbon, Chapter 5 in this book. 

The most widely used method for ionization is electron impact (El). In an El source the sample is placed in the path of an electron beam. Although many newer kinds of ion sources have been developed, El is the method commonly used in classical isotope-ratio mass spectrometers (IRMS), i.e. mass spectrometers designed for precise isotopic analysis. In this type of spectrometer the ions, once formed, are electrostatically accelerated, and then ejected through a slit into a magnetic field held perpendicular to the ion trajectory. In the magnetic sector part of the instrument the particles are deflected in an arc described by ... 

Fig. 8.6 The principle underlying electromagnetic separation of isotopes. Electrostatically accelerated ions enter at the left. A magnetic field perpendicular to the plane of the paper causes the circular orbits shown in the sketch (See text for further detail)...

Results of a study of electrostatic acceleration of enolization in cationic ketones have implications for enzymatic catalysis of enolization.136 Rate constants determined for water-, acetate- and hydroxide ion-catalysed enolizations of cationic ketones (79) (pK 11.13) and (80) (pK 11.90) have been compared with those for (81). It has been estimated that the inductive effects of the charged lings lower the p/y,s of (81) and (79) by 4.2 and 1.2 log units, respectively, whereas for (79) the electrostatic effect lowers the pAa by 6.3 log units, and enhances oh by 330-fold relative to a typical methyl ketone. The rate of enolization of (81) is enhanced 2.3 x 104-fold by the through-space electrostatic effect. 

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