Comment on the relationship between electrical and optical conductivity used in several recent papers published in the journal of materials science: materials in electronics

Recently a series of papers have been published in the Journal of Materials Science: Materials in Electronics and also in other journals in which a relationship of the form σ el = 2 k n c / α , σ el = 2 λ σ op / α  and σ el = λ nc / ( 2 π ) (where λ is the free-space wavelength of light c is the spe...

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Published inJournal of materials science. Materials in electronics Vol. 33; no. 6; pp. 2889 - 2898
Main Author Aly, Kamal A.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.02.2022
Springer Nature B.V
Subjects
Absorptivity
Characterization and Evaluation of Materials
Chemistry and Materials Science
Conductivity
Electrical resistivity
Electronics
Letter to the Editor
Light speed
Materials Science
Optical and Electronic Materials
Refractivity
Online AccessGet full text

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Abstract Recently a series of papers have been published in the Journal of Materials Science: Materials in Electronics and also in other journals in which a relationship of the form σ el = 2 k n c / α , σ el = 2 λ σ op / α  and σ el = λ nc / ( 2 π ) (where λ is the free-space wavelength of light c is the speed of light in vacuum) between the electrical conductivity σ el and optical conductivity σ 1op . The  refractive index n , absorption coefficient α and the extinction coefficient k have been used and conclusions have been drawn from these relationships, including graphs of electrical and optical conductivity as a function of photon energy over a very wide range (e.g., 1–5.6 eV). In this comment, the difference between the optical ( σ op ) and electrical ( σ el ) conductivities is considered and analyzed through well-known textbook considerations; correct relations are given, and it is shown that the above expressions that have recently appeared in the literature are incorrect.
AbstractList Recently a series of papers have been published in the Journal of Materials Science: Materials in Electronics and also in other journals in which a relationship of the form σel=2knc/α, σel=2λσop/α and σel=λnc/(2π) (where λ is the free-space wavelength of light c is the speed of light in vacuum) between the electrical conductivity σel and optical conductivity σ1op. The refractive index n, absorption coefficient α and the extinction coefficient k have been used and conclusions have been drawn from these relationships, including graphs of electrical and optical conductivity as a function of photon energy over a very wide range (e.g., 1–5.6 eV). In this comment, the difference between the optical (σop) and electrical (σel) conductivities is considered and analyzed through well-known textbook considerations; correct relations are given, and it is shown that the above expressions that have recently appeared in the literature are incorrect.
Recently a series of papers have been published in the Journal of Materials Science: Materials in Electronics and also in other journals in which a relationship of the form σ el = 2 k n c / α , σ el = 2 λ σ op / α  and σ el = λ nc / ( 2 π ) (where λ is the free-space wavelength of light c is the speed of light in vacuum) between the electrical conductivity σ el and optical conductivity σ 1op . The  refractive index n , absorption coefficient α and the extinction coefficient k have been used and conclusions have been drawn from these relationships, including graphs of electrical and optical conductivity as a function of photon energy over a very wide range (e.g., 1–5.6 eV). In this comment, the difference between the optical ( σ op ) and electrical ( σ el ) conductivities is considered and analyzed through well-known textbook considerations; correct relations are given, and it is shown that the above expressions that have recently appeared in the literature are incorrect.
Author Aly, Kamal A.
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SubjectTerms Absorptivity
Characterization and Evaluation of Materials
Chemistry and Materials Science
Conductivity
Electrical resistivity
Electronics
Letter to the Editor
Light speed
Materials Science
Optical and Electronic Materials
Refractivity
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Title Comment on the relationship between electrical and optical conductivity used in several recent papers published in the journal of materials science: materials in electronics
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