GaAs has an energy band gap of 1.43eV. It appears opaque. Explain why it is so.

Indium antimonide (InSb) has a band gap of only 0.17 eV, while GaAs has aband gap...

Indium antimonide (InSb) has a band gap of only 0.17 eV, while GaAs has aband gap of 1.424 eV. Explain how the difference between these band gaps fitswith the "fundamental" explanation of hard and soft acids and bases and the trends in the periodic table.

Explain the difference between an indirect and direct band gap semiconductor. Is the optical absorption coefficient...

Explain the difference between an indirect and direct band gap semiconductor. Is the optical absorption coefficient less or more in direct band gap material and why?

Explain in detail why band gap of nanomaterials increases with size reduction. Emissions and absorption of...

Explain in detail why band gap of nanomaterials increases with size reduction. Emissions and absorption of wavelengths of nanoparticles are size and shape dependant-explain this with semiconductor quantum dots as example.

Estimate the temperature (in Kelvins) at which GaAs has an electrical conductivity of 4.0 x 10-3...

Estimate the temperature (in Kelvins) at which GaAs has an electrical conductivity of 4.0 x 10-3 (?-m)-1, assuming a temperature dependence for ? as shown in Eq. 18.36. For GaAs, use a band gap of 1.42 eV, and a room temperature (298K) conductivity of 1.0 x 10-6 (?-m)-1.

Silicon at 293 K has an energy gap Eg = 1.20 eV. (a) Calculate the probability...

Silicon at 293 K has an energy gap Eg = 1.20 eV. (a) Calculate the probability that an electron state is occupied at the bottom of the conduction band at a temperature of 293 K, i.e., at an energy 1.20 eV above the top of the valence band. (b) Doping silicon with aluminum adds acceptor levels in the gap, 0.067 eV above the top of the valence band of pure silicon, and changes the effective Fermi energy. See Fig. 41-...

Explain what is Band structure and and why energy bands are formed in a solid state?...

Explain what is Band structure and and why energy bands are formed in a solid state? Support your answer with Pauli principle (formulate the principle according to symmetrical and antisymetrical wave function terms) and please use necessary drawings to better explanation?

Explain elaborately the Impact of direct vs indirect band gap for optical emission/absorption for CIGS (Copper...

Explain elaborately the Impact of direct vs indirect band gap for optical emission/absorption for CIGS (Copper indium gallium (di)selenide) solar cell. What is the expected absorption wavelength of the p and n type material, respectively if the band gap is 1.0 EV and 1.7 EV respectively. (Please give the answer In details)

The band gap of three materials are 0, 1 and 10 eV, respectively. Explain color and...

The band gap of three materials are 0, 1 and 10 eV, respectively. Explain color and conductivity differences when comparing a single crystal to powder of each material.

24) a) Why don’t we consider the phonon energy when calculating the energy of emitted photons...

24) a) Why don’t we consider the phonon energy when calculating the energy of emitted photons in an indirect gap materials? b) Why is the phonon energy important for an electron changing its energy in the conduction band or a hole changing its energy in the valence band?

Why Gap Analysis model is so practical?

Why Gap Analysis model is so practical?