Resolution concept

The general drawback of all these resolution concepts is the maximum yield of 50%. In the last part of this chapter the state-of-the-art and recent developments in 100% yield concepts in crystallization-induced resolution are discussed. This so-called crystallization-induced asymmetric transformation combines classical resolution with in situ racemization. Most examples in this chapter originate from day-to-day research efforts at DSM Pharma Chemicals and at Syncom. 

The Image Resolution Concept Monolayer and Multilayer Image Analysis... 

Enzymatic resolution is another method applied for the production of l- as well as D-amino acids. The disadvantage of a resolution process, a maximal yield of 50%, can often be overcome by racemization of the unwanted enantiomer of the amino acid derivative (vide infra). Many resolution concepts have been developed and commercialized, e.g., the acylase process by Degussa and Tanabe [15], the D-hydantoinase process by Recordati and Ajinomoto [16], the aminoamidase processes of DSM, and different lipase-catalyzed processes [1,13b, 17]. 

The detectability of critical defects with CT depends on the final image quality and the skill of the operator, see figure 2. The basic concepts of image quality are resolution, contrast, and noise. Image quality are generally described by the signal-to-noise ratio SNR), the modulation transfer function (MTF) and the noise power spectrum (NFS). SNR is the quotient of a signal and its variance, MTF describes the contrast as a function of spatial frequency and NFS in turn describes the noise power at various spatial frequencies [1, 3]. 

It should be noted that these results are only preliminary and have to be considered as a proof of concept. As is clear from eq. (2) the phase contrast can be improved drastically by improving the global resolution and sensitivity of the instrument. Currently, a high resolution desktop system is under construction [5] in which the resolution is much better than that of the instrument used in this work, and in which the phase contrast is expected to be stronger by one order of magnitude. 

Interpretable high-resolution structural infomiation (e.g. preservation of dimensions, or correlation of the stmctiiral detail with a physiologically or biochemically controlled state) is therefore obtained exclusively from samples in which life has been stopped very quickly and with a sufficiently high time resolution for the cellular dynamics [19]. Modem concepts for specimen preparation therefore try to avoid traditional, chemical... 

Hell S W and Kroug M 1995 Ground-state-depletion fluorescence microscopy a concept for breaking the diffraction resolution limit Appl. Phys. B 60 495-7... 

The hnearity between M and makes the concept of absorbance so usehil that measurements made by sampling methods other than transmission are usually converted to a scale proportional to absorbance. The linearity between M and i is maintained only if the resolution of the spectrometer is adequate to eliminate contributions from wavelengths not absorbed by the species being measured. In addition, the apparent value of a is very dependent on resolution because a is 2l strong function of wavelength (30,31). 

Using a visible light probe NSOM is the eadiest of the probe scopes, at least in conception, and is another apparent exception to the diffraction-liinited resolution rule, in that NSOM illuminates an object with a beam of visible light smaller than the diffraction limit. The resolution then is limited only by the size of that beam. To achieve this, light issuing from a very tiny aperture at the end of a glass capillary scans a very near sample. The tip must be located on the order of X/2 from that surface. Resolution in the range of 10—20 nm has been achieved (31). 

Wark, Whitlock, and co-workers [72]-[75] extend these ideas in shock compression of < 111 >-oriented silicon single crystals. The method of producing the shock wave differs from previous X-ray diffraction studies, but the basic concepts are the same. Higher X-ray fluences result in a time resolution of 0.05-0.1 ns. This permits a sequence of exposures at various irradiances and delay times, thus mapping the interatomic spacing of the shock-compressed surface as a function of time. 

In principle GD-MS is very well suited for analysis of layers, also, and all concepts developed for SNMS (Sect. 3.3) can be used to calculate the concentration-depth profile from the measured intensity-time profile by use of relative or absolute sensitivity factors [3.199]. So far, however, acceptance of this technique is hesitant compared with GD-OES. The main factors limiting wider acceptance are the greater cost of the instrument and the fact that no commercial ion source has yet been optimized for this purpose. The literature therefore contains only preliminary results from analysis of layers obtained with either modified sources of the commercial instrument [3.200, 3.201] or with homebuilt sources coupled to quadrupole [3.199], sector field [3.202], or time-of-flight instruments [3.203]. To summarize, the future success of GD-MS in this field of application strongly depends on the availability of commercial sources with adequate depth resolution comparable with that of GD-OES. 

Concluding this section, two interesting variants of the STM should be addressed. The spin-polarized STM (SPSTM), which works with a ferromagnetic tip, can be used to probe surface magnetism with high resolution [5.47, 5.48]. Other modifications of the STM involve electromagnetic radiation, whereby two basic concepts can... 

Thus, from the plate theory, (Rr) the concept of resolution as introduced by Giddings, will be given by... 

W. Beitsch, Two-dimensional gas chromatography concept, instmmentation and appli-cations-Pait 1 fundamentals., conventional two-dimensional gas chromatography, selected applications , ]. High. Resolut. Chromatogr. 22 647 (1999). 

J. C. Giddings, Concepts and comparison in multidimensional separation , ]. High Resolut. Chromatogr. Chromatogr. Comm. 10 319-323 (1987). 

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