Electric permittivity anomaly close to the critical mixing point: An improved method of estimation of the exponent describing a weak critical anomaly

Kosmowska, M.; Orzechowski, Kazimierz

doi:10.1140/epjb/e2008-00178-9

Cited by 5 publications

(6 citation statements)

References 20 publications

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“…Many data showed that the observed singularity in the static dielectric constant in the homogeneous phase was consistent with including a ͉t͉ 1−␣ term ͓with t = ͑T − T c ͒ / T c and ␣ the heat capacity critical exponent͔, [12][13][14][15][16][17] in agreement with the predictions of a scaling formulation for fluids under an electric field. 18 Moreover, the anomalous behavior of ⑀ in the one-phase region was experimentally confirmed to be an intrinsic effect, 13,14,19,20 different from the critical behavior of the density .…”

Section: Introductionsupporting

confidence: 60%

Temperature, concentration, and frequency dependence of the dielectric constant near the critical point of the binary liquid mixture nitrobenzene-tetradecane

Losada-Pérez

Cordoyiannis

Cerdeiriña

et al. 2010

The Journal of Chemical Physics

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Detailed results are reported for the dielectric constant epsilon as a function of temperature, concentration, and frequency near the upper critical point of the binary liquid mixture nitrobenzene-tetradecane. The data have been analyzed in the context of the recently developed concept of complete scaling. It is shown that the amplitude of the low frequency critical Maxwell-Wagner relaxation (with a relaxation frequency around 10 kHz) along the critical isopleth is consistent with the predictions of a droplet model for the critical fluctuations. The temperature dependence of epsilon in the homogeneous phase can be well described with a combination of a (1-alpha) power law term (with alpha the heat capacity critical exponent) and a linear term in reduced temperature with the Ising value for alpha. For the proper description of the temperature dependence of the difference Deltaepsilon between the two coexisting phases below the critical temperature, it turned out that good fits with the Ising value for the order parameter exponent beta required the addition of a corrections-to-scaling contribution or a linear term in reduced temperature. Good fits to the dielectric diameter epsilon(d) require a (1-alpha) power law term, a 2beta power law term (in the past considered as spurious), and a linear term in reduced temperature, consistent with complete scaling.

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Section: Introductionsupporting

confidence: 60%

Temperature, concentration, and frequency dependence of the dielectric constant near the critical point of the binary liquid mixture nitrobenzene-tetradecane

Losada-Pérez

Cordoyiannis

Cerdeiriña

et al. 2010

The Journal of Chemical Physics

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“…Recently a "critical increment" method has been proposed, convenient for an analysis of weak critical anomalies. 33,34 The method has its advantages: (a) it reduces the number of matched parameters, (b) it does not produce an increase in the error (like the derivative method), (c) it makes it possible to omit the correction-to-scaling element (analysis is performed in Table 1. Fitting of eq 1 to the Experimental Points Obtained in Run 1 a the vicinity of T c only), and (d) it makes it possible to avoid correlations between the critical amplitudes.…”

Section: ■ Discussionmentioning

confidence: 99%

“…Because the analyzed range is close to the critical temperature, the correction-to-scaling element could be omitted. Consequently, the critical increment has the following form 33…”

Section: ■ Discussionmentioning

confidence: 99%

“…Recently a “critical increment” method has been proposed, convenient for an analysis of weak critical anomalies. , The method has its advantages: (a) it reduces the number of matched parameters, (b) it does not produce an increase in the error (like the derivative method), (c) it makes it possible to omit the correction-to-scaling element (analysis is performed in the vicinity of T c only), and (d) it makes it possible to avoid correlations between the critical amplitudes. The method consists of analyzing the differences between the experimental values and the tangent line calculated at some arbitrarily selected reference temperature T x in the precritical region normalΔ false( normalε normalρ̑ − 1 false) normalc = ( ε ρ̑ − 1 ) − ( B 0 + B 1 T ) where ( B 0 + B 1 T ) is the tangent to the ερ̑ –1 ( T ) calculated at T x .…”

Section: Discussionmentioning

confidence: 99%

“…Because the analyzed range is close to the critical temperature, the correction-to-scaling element could be omitted. Consequently, the critical increment has the following form normalΔ false( normalε normalρ̑ − 1 false) normalc = prefix− italicC 1 − normalα ( α · t x 1 − α + false( 1 − normalα false) · t x − α · t − t 1 − α ) where t x = ( T x / T c – 1) is the reduced reference temperature. The results of the fitting of eq to the critical increment obtained in run 1 are presented in Table .…”

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Electric Permittivity Anomaly Close to the Critical Consolute Point of a Nitrobenzene + Octane Liquid Mixture

2012

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Electric permittivity and density were measured in a nitrobenzene and octane mixture in the vicinity of the upper critical consolute point. Measurements were conducted in the one-phase region, at the critical concentration. The possibility of stirring in the course of measurements allowed us to check if the density and concentration gradients had any influence on the obtained results. No signs of the presence of the gradients mentioned above were found. Using the data obtained in the reported measurements, different methods of the fitting of the equation describing the permittivity anomaly were tested. The calculation of a reliable value of the critical amplitude, used to estimate the critical temperature shift under the influence of the electric field, was of particular interest. The derivative (∂T(c)/∂E(2)) was found to be (-3.9 ± 0.3) × 10(-16) K m(2) V(-2).

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Scaling function of critical binary mixtures: Nitrobenzene–n-hexane data revisited

Mirzaev

Kaatze

2012

Chemical Physics

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Electric permittivity anomaly close to the critical mixing point: An improved method of estimation of the exponent describing a weak critical anomaly

Cited by 5 publications

References 20 publications

Temperature, concentration, and frequency dependence of the dielectric constant near the critical point of the binary liquid mixture nitrobenzene-tetradecane

Temperature, concentration, and frequency dependence of the dielectric constant near the critical point of the binary liquid mixture nitrobenzene-tetradecane

Electric Permittivity Anomaly Close to the Critical Consolute Point of a Nitrobenzene + Octane Liquid Mixture

Scaling function of critical binary mixtures: Nitrobenzene–n-hexane data revisited

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