Structure and electrical properties of liquid zinc

Wingfield, B.F.; Enderby, J. E.

doi:10.1016/0375-9601(68)91016-5

Cited by 23 publications

(4 citation statements)

References 12 publications

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“…This seems to agree with the results on the alkalis which have been studied extensively by Dickey et al (1967) and Young et al (1967). Calculations on the temperature dependence of the thermopower should indicate whether it is always necessary to include r for metals other than mercury, The work of North and Wagner (1969) on cadmium and Wingfield and Enderby (1968) on zinc suggests that for these metals energy dependence is important whilst North et al (1968) suggest that for lead it is not.…”

Section: Discussionsupporting

confidence: 79%

Investigation on Sub-20 fs Fiber-soliton Compression Performance of Dispersion-Flattened Fibers

Igarashi

Saitô

Nagai

et al. 2004

Jpn. J. Appl. Phys.

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Model potentials for zinc, indium, thallium, lead, cadmium and mercury are constructed using an adaptation of Shaw's energy-dependent formalism which allows the effect of high d-core states to be included. In the case of mercury this leads to a striking change in the shape of the screened form factor. Numerical calculations of the thermopower in liquid zinc, indium, thallium and mercury are in better agreement with experiment than previous calculations which did not include the energy-dependent term. Calculations of the resistivity of alloys of mercury with indium, thallium, zinc and lead are presented. These show a sharp decrease of the resistivity on alloying which is in reasonable agreement with the experimental results.

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Section: Discussionsupporting

confidence: 79%

Investigation on Sub-20 fs Fiber-soliton Compression Performance of Dispersion-Flattened Fibers

Igarashi

Saitô

Nagai

et al. 2004

Jpn. J. Appl. Phys.

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“…1 and 2, the structure factors for the molten alkaline earth metals are insensitive to temperature within the observed temperature region, and in this respect it seems that molten alkaline earth metals are rather similar to the molten Il-b divalent metals, zinc 17 , cadmium 18 , and mercury 19 . Figures 3 and 4 show the pair distribution function g(r) calculated from the structure factor with the density taken from 20_23 .…”

Section: Structure Factor and Atomic Radial Distribution Functionmentioning

confidence: 73%

Structure of Molten Mg, Ca, Sr, and Ba by X-ray Diffraction

Waseda

Yokoyama

Suzuki

1975

Zeitschrift Für Naturforschung A

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X-ray diffraction patterns have been measured on molten alkaline earth metals (Mg, Ca, Sr, and Ba) in the temperature range from the melting points to 880 °C. In all cases the structure factors obtained were temperature insensitive. By the usual Fourier transformation of the structure factors, the atomic radial distribution functions were evaluated. From these the interatomic distances and coordination numbers were estimated. The structural information was applied to a discussion of the electron-transport properties using the Ziman theory.

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“…In 'method a', we have used the binary liquid alloy hard-sphere approximation (Ashcroft and Langreth 1967a) to calculate the Aij( K ) , assuming that the packing fraction q i = 0.456 for each pure constituent, i, (at 700 "C), and q = 0.456 for the alloy also. This should be a good assumption for both Mg and Zn, since the isotherm in question (700 "C) is close to the melting temperature for Mg ( Tmp = 650 "C), and A ( K ) (and hence, 7) for Zn is seen to be nearly independent of temperature in neutron diffraction experiments (Wingfield and Enderby 1968). We have also used the Ashcroft empty-core model potential, U ( K ) , for each constituent (equation ( 4)).…”

Section: Discussionmentioning

confidence: 95%

“…(Enderby et aZ1968). We are led to propose that the energy dependence of U ( K ) , at least for Zn, must be included here as well (see also Wingfield and Enderby (1968)).…”

Section: Discussionmentioning

confidence: 99%

Electrical resistivity and thermopower of the liquid alloy MgZn

Walhout¹,

Haarsma²,

Zytveld³

1989

J. Phys.: Condens. Matter

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The authors have measured the electrical resistivity, rho , and the thermopower, S, for the liquid alloy MgZn across the entire concentration range. New data for rho and S for pure liquid Zn are also reported. Data for the liquid alloy are shown to be consistent with the Faber-Ziman theory, provided the pseudopotential for Zn is assumed to be energy dependent. A comparison of the data for the liquid alloy with data previously reported for the solid amorphous alloy indicate that this energy dependence should also be considered in the solid.

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Structure and electrical properties of liquid zinc

Cited by 23 publications

References 12 publications

Investigation on Sub-20 fs Fiber-soliton Compression Performance of Dispersion-Flattened Fibers

Investigation on Sub-20 fs Fiber-soliton Compression Performance of Dispersion-Flattened Fibers

Structure of Molten Mg, Ca, Sr, and Ba by X-ray Diffraction

Electrical resistivity and thermopower of the liquid alloy MgZn

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