Calculated Electrical Resistivity of Liquid Alloys

Abstract: IV and V on convergence of the iteration procedure and uniqueness of the solution for S'{k)/S 2 (k). 26 The condition (B4) is also satisfied by the exact g(r)

“…SðqÞ is the structure factor and VðqÞ the screened ion pseudopotential form factor. This method is initially applied to the liquid metals only, but later on the approach is restructured to investigate the resistivity of A 1ÀX B X liquid binary alloys [1][2][3][4][5][6][7][8][9][10][11]14]. Hence Equation (4) is written as follows: [3] formulations to generate the partial structure factor of the binary metallic complexes.…”

“…Now assuming the free-electron distribution, an expression for the electrical resistivity of liquid metal in terms of the average of the product of the structure factor and pseudopotential matrix element can be written as follows [1][2][3][4][5][6][7][8][9][10][11]14]:…”

“…Such a liquid exhibits metallic as well as fluid-like behaviour and hence can help to create a link between the theory of the liquid states and the theory of the electronic states in metals. And hence the study of electrical transport properties of liquid metals and their alloys remain one of the favourite quantities either experimentally or theoretically [1][2][3][4][5][6][7][8][9][10][11]. It was found that the electrical resistivities of the alloys obey two rules: (1) Nordheim's rule [12] and (2) Linde's rule [13].…”

Study of electrical transport properties of liquid semiconductor binary alloys using pseudopotential theory

“…SðqÞ is the structure factor and VðqÞ the screened ion pseudopotential form factor. This method is initially applied to the liquid metals only, but later on the approach is restructured to investigate the resistivity of A 1ÀX B X liquid binary alloys [1][2][3][4][5][6][7][8][9][10][11]14]. Hence Equation (4) is written as follows: [3] formulations to generate the partial structure factor of the binary metallic complexes.…”

“…Now assuming the free-electron distribution, an expression for the electrical resistivity of liquid metal in terms of the average of the product of the structure factor and pseudopotential matrix element can be written as follows [1][2][3][4][5][6][7][8][9][10][11]14]:…”

“…Such a liquid exhibits metallic as well as fluid-like behaviour and hence can help to create a link between the theory of the liquid states and the theory of the electronic states in metals. And hence the study of electrical transport properties of liquid metals and their alloys remain one of the favourite quantities either experimentally or theoretically [1][2][3][4][5][6][7][8][9][10][11]. It was found that the electrical resistivities of the alloys obey two rules: (1) Nordheim's rule [12] and (2) Linde's rule [13].…”

Study of electrical transport properties of liquid semiconductor binary alloys using pseudopotential theory

“…Now assuming the free-electron distribution, an expression for the electrical resistivity of liquid metal in terms of the average of the product of the structure factor and pseudopotential matrix element can be written as, [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18]21] …”

“…And hence the study of electrical transport properties of liquid metals and their alloys remain one of the favourite quantities either experimentally or theoretically. [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18] It was found that the electrical resistivities of the alloys obey two rules: (i) Nordheim's rule [19] and (ii) Linde's rule. [20] In the Nordheim's rule the resistivity of liquid alloys depends directly on the product of the atomic concentrations in the percentage of the guest and host elements.…”

Electrical Transport Properties of K-Based Alkali Liquid Binary Alloys

Der spezifische elektrische Widerstand geschmolzener indium-wismut-Legierungen und einige betrachtungen bezüglich der einordnung der systeme indium-wismut, indium-zinn und wismut-zinn in die Sauerwaldsche Systematik