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Field method, oscillatory

N. F. Ramsey (Harvard) invention of the separated oscillatory fields method and its use in the hydrogen maser and other atomic clocks. [Pg.1304]

The fast beam separated oscillatory field method has been used to measure with high precision the Lamb shift in the n=2 state of hydrogen. The agreement between the measured value and the theoretical value is obscured by the discrepant values for... [Pg.845]

The drive for accuracy produced Ramsey s separated oscillatory field method however, there were limits to how far apart the two... [Pg.190]

Three recent measurements shown in Table 1 and Fig.4 provide particularly significant tests of theory. The first is the high precis gn (+9 ppm) microwave resonance measurement of Lundeen and Pipkin, using the separated oscillatory field method. Their result lies well below both theoretical values when the Borie correction is excluded, but agrees with Mohr s theory when the Borie correction is included. The influence of the Borie correction is particularly large in the case of deuterium, but here the experimental data are insufficiently precise to provide a definitive test. A measurement in deuterium similar in precision to Lundeen and Pipkin s result in hydrogen would provide a valuable check on the validity of the Borie correction. [Pg.179]

Optimal flow method, 261 Optimization non-constrained, 286 of functionals, 305 Ordinary value, 338 Orthogonalization, Schmidt," 65 Osaki, S., 664 Oscillation hysteresis, 342 Oscillations autoperiodic, 372 discontinuous theory, 385 heteroperiodic, 372 piecewise linear, 390 relaxation asymptotic theory, 388 relaxation, 383 Oscillatory circuit, 380 "Out field, 648 existence of, 723... [Pg.780]

Oscillatory shear experiments are the preferred method to study the rheological behavior due to particle interactions because they directly probe these interactions without the influence of the external flow field as encountered in steady shear experiments. However, phenomena that arise due to the external flow, such as shear thickening, can only be investigated in steady shear experiments. Additionally, the analysis is complicated by the different response of the material to shear and extensional flow. For example, very strong deviations from Trouton s ratio (extensional viscosity is three times the shear viscosity) were found for suspensions [113]. [Pg.207]

Solve the convection equation of high order (3rd order) essentially non-oscillatory (ENO) upwind scheme (Sussman et al., 1994) is used to calculate the convective term V V

velocity field P". The time advancement is accomplished using the second-order total variation diminishing (TVD) Runge-Kutta method (Chen and Fan, 2004). [Pg.30]

Due to the hyperbolicity and nonlinearity of the model equations, associated with possible shocks in granular flows over non-trivial topography, numerical solutions with the traditional high-order accuracy methods are often accompanied with numerical oscillations of the depth profile and velocity field. This usually leads to numerical instabilities unless these are properly counteracted by a sufficient amount of artificial numerical diffusion. Here, a non-oscillatory central (NOC) difference scheme with a total variation diminishing (TVD) limiter for the cell reconstruction is employed, see e.g. [4], [12] we obtain numerical solutions without spurious oscillations. In order to test the model equations, we consider an ideal mountain subregion in which the talweg is defined by the slope function... [Pg.86]

The fast beam separated oscillatory field technique (SOF) provides a method through which one can obtain a series of lines whose widths are less than the natural line width with a good understanding of the factors which determine the line shape and the line center. This paper summarizes a separated oscillatory field measurement of the Lamb shift in hydrogen.[1]... [Pg.838]

The angular velocity and angular momentum acfs themselves are important to any dynamical theory of molecular liquids but are very difficult to extract directly from spectral data. The only reliable method available seems to be spin-rotation nuclear magnetic relaxation. (An approximate method is via Fourier transformation of far-infrared spectra.) The simulated torque-on acfs in this case become considerably more oscillatory, and, which is important, the envelope of its decay becomes longer-lived as the field strength increases. This is dealt with analytically in Section III. In this case, computer simulation is particularly useful because it may be used to complement the analytical theory in its search for the forest among the trees. Results such as these for autocorrelation functions therefore supplement our... [Pg.191]

The transient interval of time between the application of the field and saturation (Fig. 11a) lasts for less than 1.0 ps, and in this period the rise transient oscillates deeply (Fig. 11b). The oscillation of the racemic mixture is significantly deeper than that in the / enantiomer. The experimental study of transients such as these, then, migllt be a conv ent method of measuring the dynamical effect of chiral discrimination in the liquid state. Deep transient oscillations such as these have been foreseen theoretically by Coffey and coworkers using the theory of Brownian motion. The equivalent fall transients (Fig. 11b) are much loiter lived than the rise transients and are not oscillatory. They decay more quickly than the equilibrium acfs. The effect of chiral discrimination in Fig. lib is evident. Note that the system... [Pg.218]

MSI) that uses the same time-dependent Ginzburg Landau kinetic equation as CDS, but starts from (arbitrary) bead models for polymer chains. The methods have been summarized elsewhere. Examples of recent applications include LB simulations of viscoelastic effects in complex fluids under oscillatory shear,DPD simulations of microphase separation in block copoly-mers ° and mesophase formation in amphiphiles, and cell dynamics simulations applied to block copolymers under shear. - DPD is able to reproduce many features of analytical mean field theory but in addition it is possible to study effects such as hydrodynamic interactions. The use of cell dynamics simulations to model non-linear rheology (especially the effect of large amplitude oscillatory shear) in block copolymer miscrostructures is currently being investigated. ... [Pg.232]

Let us return to the problem of solving the response of the quantum mechanical system to an external electric field. The zeroth-order wave function of the quantum mechanical system is obtained by use of any of the standard approximate methods in quantum chemistry and the coupling to the field is described by the electtic dipole operator. There exist a number of ways to determine the response functions, some of which differ in formulation only, whereas others will be inherently different. We will give a short review of the characteristics of tire most common formulations used for the calculation of molecular polarizabilities and hyperpolarizabilities. The survey begins with the assumption that the external perturbing fields arc non-oscillatory, in which case we may determine molecular properties at zero frequencies, and then continues with the general situation of time-dependent fields and dynamic properties. [Pg.31]

See other pages where Field method, oscillatory is mentioned: [Pg.20]    [Pg.20]    [Pg.189]    [Pg.434]    [Pg.13]    [Pg.4]    [Pg.424]    [Pg.511]    [Pg.431]    [Pg.240]    [Pg.88]    [Pg.311]    [Pg.284]    [Pg.74]    [Pg.26]    [Pg.460]    [Pg.511]    [Pg.26]    [Pg.105]    [Pg.189]    [Pg.147]    [Pg.66]    [Pg.66]    [Pg.76]    [Pg.203]    [Pg.62]    [Pg.374]    [Pg.610]    [Pg.361]    [Pg.334]    [Pg.66]    [Pg.295]    [Pg.204]    [Pg.555]   
See also in sourсe #XX -- [ Pg.179 ]



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