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Loop display level

Figure 6. Hysteresis loops of a single crystal of Fe8 molecular clusters at different temperatures. The longitudinal field (z-direction) was swept at a constant sweeping rate of 0.014 T/s. The loops display a series of steps, separated by plateaux. As the temperature is lowered, there is a decrease in the transition rate due to reduced thermal assisted tunneling. The hysteresis loops become temperature independent below 0.35 K, demonstrating quantum tunneling at the lowest energy levels. Figure 6. Hysteresis loops of a single crystal of Fe8 molecular clusters at different temperatures. The longitudinal field (z-direction) was swept at a constant sweeping rate of 0.014 T/s. The loops display a series of steps, separated by plateaux. As the temperature is lowered, there is a decrease in the transition rate due to reduced thermal assisted tunneling. The hysteresis loops become temperature independent below 0.35 K, demonstrating quantum tunneling at the lowest energy levels.
The original GC control system took the form of a central room which monitors the flowllne6, oil, water, and utility sections, plus a smaller satellite control room monitoring the gas compression and gas conditioning section of the plant. Closed loop process control, such as separator liquid level, pressure, flow and temperature control were handled by local pneumatic analog controllers. The key process variables are displayed in the control room via electronic instrumentation. All the key process and equipment trouble alarms are annunciated m the control rooms, plus the on/off status of key machinery and open/close status of key valves are displayed. [Pg.60]

A different type of failure of the adiabatic approximation, unique to the case Sphere the final state is in the continuum, is demonstrated in Figure 11.2. In this case the detuning A] is decreased with respect to the intermediate level to 1 cm, and the v pulse duration is kept at lOOps. Clearly, the adiabatic approximation fails to display Withe oscillations at intermediate times that result from the interference between two adiabatic channels. A reduction in detuning of the intermediate level does not affect fhe bound state adiabatic condition, Q°At 1, which appears to hold (as suggested v by the large number of oscillations during pulse time). However, the more exact... [Pg.237]

Machine process controls coordinate individual functions of the clamp, injection unit, ejector mechanism, and mold systems and accessories such as core pulls and unscrewing dies for threaded parts. The more advanced controls employ a feedback system (closed loop) to provide much tighter control over actual parameters vs. setpoints. High-level controls are capable of communicating with auxiliary equipment such as chillers, hopper loaders, mold temperature controllers, robots, etc., and displaying all machine parameters and conditions (Chapter 3)... [Pg.199]

By specifically and selectively reconstructing the total ion peak observed after a loop flow injection to display only the m/z values of interest, the area count for that ion can be extracted from the composite total ion peak. The measured area count can then be used to estimate the quantity of specific alkaloid by comparison to a calibration curve. Thus, component compounds in a mixture are separated by mass, as opposed to chromatography, for quantitation. To normalize the variability of the API response, an internal reference standard is added to the sample prior to loop injection. Alkaloids for which standards are not available are reported as equivalents of a closely related and available standard used to generate the calibration curve, for example, deltaline and methyllycaconitine have been used as calibration standards to represent the non-MSAL and MSAL types of alkaloids, respectively, in the plant material. Calibration curves for these two compounds were linear (r > 0.990) and there appears to be no selective suppression of lower-level alkaloids (figure 13.21). Multiple analyses of Delphinium barbeyi samples returned a level ofprecision that was less than 10 % (relative standard deviation) for all components [56]. [Pg.398]

The three-dimensional structures of three non-plant sesquiterpene synthases reveals a single domain composed entirely of a-hehces and loops despite the low homology on amino acid sequence level [14,16,17]. The secondary elements of 5-epi-aristolochene synthase, a plant sesquiterpene synthase, conform to this pattern with the exception of two domains solely composed of a-helices and loops. It is reasonable, but still a matter of debate, to extrapolate these data to the case of amorpha-4,11-diene synthase, which will probably only display a-hehces and loops once the crystal structme has been solved. [Pg.297]

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Display level

Loop display

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