Consider a crystal made of silicon atoms. All 14 electrons in each silicon atom participate in electronic polarizability. If the electronic polarization resonant frequency f0 of silicon is found to be 4.9x10^15[Hz], and electronic polarizability is 4.15x10^-40 Fm^2. 1. Obtain static dielectric constant εr(0) using the Clausius-Mossotti equation.
Consider a crystal made of silicon atoms. All 14 electrons in each silicon atom participate in electronic polarizability. If the electronic polarization resonant frequency f0 of silicon is found to be 4.9x10^15[Hz], and electronic polarizability is 4.15x10^-40 Fm^2. 1. Obtain static dielectric constant εr(0) using the Clausius-Mossotti equation.
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Consider a crystal made of silicon atoms. All 14 electrons in each silicon atom participate in electronic
polarizability. If the electronic polarization resonant frequency f0 of silicon is found to be 4.9x10^15[Hz], and electronic
polarizability is 4.15x10^-40 Fm^2.
1. Obtain static dielectric constant εr(0) using the Clausius-Mossotti equation.
2. In measuring complex dielectric constant ε(ω) = ε’(ω) +jε’’(ω), you identified a polarization
has the maximum energy loss at frequency f = 1[GHz]. Using ε’(0) from question (1) and ε’’ = 4 at f = 1[GHz],
plot ε’(ω) and ε’’(ω) as a function of f.
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