Short-order parameter

Equation (A3.3.57) must be supplied with appropriate initial conditions describing the system prior to the onset of phase separation. The initial post-quench state is characterized by the order parameter fluctuations characteristic of the pre-quench initial temperature T.. The role of these fluctuations has been described in detail m [23]. Flowever, again using the renomialization group arguments, any initial short-range correlations should be irrelevant, and one can take the initial conditions to represent a completely disordered state at J = xj. For example, one can choose the white noise fomi (i /(,t,0)v (,t, 0)) = q8(.t -. ), where ( ) represents an... [Pg.739]

Short-range order parameter a Standard enthalpy of activa- m... [Pg.107]

If the upset can be detected and dealt with in short order, the system can be protected. Some of the probes that measure parameters... [Pg.2440]

Figure 2 Time sequence of th< spin configuration on a (100) plane at 50% when the system at T=2.5 (snapshot a) is quenched down to T—1.7 and is subject to an isothermal aging. Snapshots demonstrated in figs, b, c and d correspond to time t=20,000, 43,000 and 50,000. The long range and short range order parameters input from the PPM calculations and resultant ones in the simulated lattice are also demonstrated [22, 24, 28]. ...

TABLE I.a Comparison of Observed Activity Coefficients of Cu and Au with Values Calculated from Observed Short-Range Order Parameters by the First-Order Quasi-Chemical Theory... [Pg.125]

A is a constant and p is the critical exponent which adopts values from 0.3 to 0.5. Values around p = 0.5 are observed for long-range interactions between the particles for short-range interactions (e.g. magnetic interactions) the critical exponent is closer to p 0.33. As shown in the typical curve diagram in Fig. 4.2, the order parameter experiences its most relevant changes close to the critical temperature the curve runs vertical at Tc. [Pg.33]

Figure 36 is a three dimensional representation of the order parameter P at 350 K after 19.2 ns of simulation, where about 25% of the system has transformed into the crystalline state. The black regions near both side surfaces correspond to the crystalline domains with higher P values, while the white regions are in a completely isotropic state of P = 0. Detailed inspection of these data has shown that no appreciable order is present in the melt. A simple interface model between the crystal and the isotropic melt seems to be more plausible at least in this case of short chain Cioo-... [Pg.76]

When drugs are received by routes other than intravenous injection, input is not "instantaneous" or a short-order zero, and the function must often be represented as a mixed-order, primarily a first-order, process, which must then be taken into account in simulating drug concentration. Drug clearance, however, is not always a constant parameter, especially when an organ such as the liver is involved in the removal of the drug from the body ... [Pg.349]

This equation effectively imposes the condition that py — Pji = xaXb, with the important result that sro is totally excluded, because, when the pair probability is equal to x xb, the short-range-order parameter a becomes zero (see Section 7.1.2). [Pg.217]

The range of coherence follows naturally from the BCS theory, and we see now why it becomes short in alloys. The electron mean free path is much shorter in an alloy than in a pure metal, and electron scattering tends to break up the correlated pairs, so dial for very short mean free paths one would expect die coherence length to become comparable to the mean free path. Then the ratio k i/f (called the Ginzburg-Landau order parameter) becomes greater than unity, and the observed magnetic properties of alloy superconductors can be derived. The two kinds of superconductors, namely those with k < 1/-/(2T and those with k > l/,/(2j (the inequalities follow from the detailed theory) are called respectively type I and type II superconductors. [Pg.1578]

According to RG theory [11, 19, 20], universality rests on the spatial dimensionality D of the systems, the dimensionality n of the order parameter (here n = 1), and the short-range nature of the interaction potential 0(r). In D = 3, short-range means that 0(r) decays as r p with p>D + 2 — tj = 4.97 [21], where rj = 0.033 is the exponent of the correlation function g(r) of the critical fluctuations [22] (cf. Table I). Then, the critical exponents map onto those of the Ising spin-1/2 model, which are known from RG calculations [23], series expansions [11, 12, 24] and simulations [25, 26]. For insulating fluids with a leading term of liquid metals [27-29] the experimental verification of Ising-like criticality is unquestionable. [Pg.4]

Several paradoxes have become apparent from modern descriptions of phase transitions, and these have driven much of the research activity in this field. The intermolecular interactions that are responsible for the phase transition are relatively short-ranged, yet they serve to create very long-range order at the transition temperature. The quantum mechanical details of the interactions governing various transitions are very different, and the length scales over which they operate vary considerably, yet the observation of scaling laws and the equivalences of a given critical exponent value within a fixed dimensionality of the order parameter show that some additional principle not described by quantum mechanics must also be at work. Also, the partition... [Pg.109]

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