Academic Integrity: tutoring, explanations, and feedback — we don’t complete graded work or submit on a student’s behalf.

2) A metal becomes transparent for wavelengths shorter than 200 nm (nm = 10^-9 m

ID: 1985511 • Letter: 2

Question

2) A metal becomes transparent for wavelengths shorter than 200 nm (nm = 10^-9 m). Calculate the carrier density assuming the free-space permittivity (relative permittivity is unity). 2) A metal becomes transparent for wavelengths shorter than 200 nm (nm = 10^-9 m). Calculate the carrier density assuming the free-space permittivity (relative permittivity is unity). 2) A metal becomes transparent for wavelengths shorter than 200 nm (nm = 10^-9 m). Calculate the carrier density assuming the free-space permittivity (relative permittivity is unity).

Explanation / Answer

Take wavelength as 130nm

Drude theory, which describes movement of free electrons from the viewpoint of classical mechanics, tells us as follows. On the assumption that the mean scattering time of free electrons is much shorter than the period of oscillation of light, the dielectric function () is expressed by the following formula (1):
()=b()p 2/2(1)
wherein
p=(ne2/m×0)1/2 is a plasma frequency of conduction electrons, and here n is a carrier density, e is an electric charge, m is an effective mass, and 0 is the permittivity of vacuum. The first term of the formula (1) stands for contribution of the metal dipoles, and is approx. 1, here. The second term stands for contribution of the conduction electrons.

As shown above, the plasma frequency is a function of the carrier density n. In the case of 0>, the dielectric function () gives a negative value and hence the incident light undergoes plasma reflection. On the other hand, it the case of >0, the dielectric function () gives a positive value and hence the light transmits through the substance. Accordingly, the plasma frequency can be regarded as the threshold between reflection and transmittance when the substance responds to light.

A typical metal has a plasma frequency in the ultraviolet region, and hence reflects visible light. For example, silver Ag has a carrier density of approx. n=6.9×1022 (cm3), and the wavelength corresponding to the plasma frequency is positioned at approx. 130 nm in the ultraviolet region.

Related Questions

2) A 100 ? resistor and a 20 ? resistor are placed in parallel . Which one has t
Question #1278902
2) A 100-kg block on an inclined plane is attached to another block of mass m vi
Question #1695087
2) A 1000 ml sample of 0.20 M HE is itrated with 0.10 M KOH. Determine the pH of
Question #636108
2) A 350.0 mL buffer solution is 0.140 M in HFand 0.140 M in NaF. What mass of N
Question #950135
2) A 4L sealed container is filled with argon (MW 39.95 g/mol) and registers a p
Question #577408
2) A 4L sealed container is filled with argon (MW 39.95 g/mol) and registers a p
Question #1081120
2) A 5uF capacitor is connected to a 6 V batter and allowed to fully charge. It
Question #776570
2) A 6”x2”x1” block, made out of AISI 1020 the left end of block is fixed. A dow
Question #1842611
Hire Me For All Your Tutoring Needs
Integrity-first tutoring: clear explanations, guidance, and feedback.
Drop an Email at
drjack9650@gmail.com
Chat Now And Get Quote

Navigate

Previous
2) A medical researcher is studying percent body fat. As part of the study, the
Next
2) A metal becomes transparent for wavelengths shorter than 200 nm (nm = 10^-9 m

Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.