Decomposition field-driven

In any case, crystal lattices are destroyed by the field-driven decomposition. If the original AX/AY interface remains coherent, stresses develop which will consume some driving force. In other words, the AX/AY interface is then polarized. A determination of the amount (=jA/A-dt) of decomposed AX(AY) at the interface should give a very sensitive method to measure extremely small differences in the elec-... 

The fifth and final chapter, on Parallel Force Field Evaluation, takes account of the fact that the bulk of CPU time spent in MD simulations is required for evaluation of the force field. In the first paper, BOARD and his coworkers present a comparison of the performance of various parallel implementations of Ewald and multipole summations together with recommendations for their application. The second paper, by Phillips et AL., addresses the special problems associated with the design of parallel MD programs. Conflicting issues that shape the design of such codes are identified and the use of features such as multiple threads and message-driven execution is described. The final paper, by Okunbor Murty, compares three force decomposition techniques (the checkerboard partitioning method. 

The most common deposition technique is the glow-discharge decomposition (gdd) of volatile inorganic compounds - e.g., SiH4 to make a-Si H. Several variants are available where the ionized plasma is driven by a dc electric field (with the substrate on either the anode or the cathode), an ac field (60 Hz), an rf inductive, or rf capacitive (sometimes with a superposed dc bias). These techniques can be used in the presence of a magnetic field. The pressure of SiH4 is in the range 1 to 700 Pascal with the substrate at 200 300°C. Above 350°C, H2 evolves from the a-Si H layer ... 

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