Solution to Set 6: Difference between revisions

Problem 1.

Given

Aluminum(Al) is trivalent with

• atomic mass ${\displaystyle m_{a}=27}$ amu
• density ${\displaystyle n=2.7g/cm^{3}}$
• room temperature ${\displaystyle T=293-296.5K}$
• mean free time between electron collisions ${\displaystyle t_{avg}=4{\rm {x}}10^{-14}}$ s.

(a) Resistivity

Calculate the resistivity ${\displaystyle \rho }$ of aluminum(Al) at room temperature.

${\displaystyle \rho ={\frac {1}{\sigma }}\;}$ ${\displaystyle ={\frac {1}{37.8\times 10^{6}Sm^{-1}}}\;}$ ${\displaystyle =2.82\times 10^{-8}\;}$Ω·m

(b) Current

If a 2-V voltage is applied to the ends of an aluminum wire 10 m long and with a cross- sectional area of ${\displaystyle 1mm^{2}}$, what is the current flowing through it?

${\displaystyle R={\frac {\iota \cdot \rho }{A}}\;}$ ${\displaystyle ={\frac {\left(10m\right)\cdot \left(2.646\times 10^{-8}\Omega \cdot m\right)}{\left(10^{-6}m\right)}}\;}$ ${\displaystyle =0.2646\Omega \;}$

${\displaystyle I={\frac {V}{R}}={\frac {2V}{0.2646\Omega }}=7.559A\;}$

Problem 2

The resistivity of a certain material at room temperature is 0.02 Wm and the Hall coefficient is ${\displaystyle 5{\rm {x}}10^{-4}}$ ${\displaystyle m^{3}/C}$. An electric field of 1 V/m is applied across it. Deduce all the information you can think of about this material.

Given

• Temperature ${\displaystyle T=20^{\circ }C\;}$
• Resistivity ${\displaystyle \rho =0.02\Omega \cdot m\;}$
• Hall coefficient ${\displaystyle R_{H}=5{\rm {x}}10^{-4}{\tfrac {m^{3}}{C}}\;}$
• Electric field ${\displaystyle E=1{\tfrac {V}{m}}\;}$

Deduction

• Conductivity

${\displaystyle \sigma ={\frac {1}{\rho }}={\frac {1}{0.02\Omega \cdot m}}=50{\tfrac {S}{m}}\;}$

• Current Density

${\displaystyle \mathbf {J} ={\frac {E}{\rho }}={\frac {1{\tfrac {V}{m}}}{0.02\Omega \cdot m}}=50{\tfrac {A}{m^{2}}}\;}$

• Magnetic Field

${\displaystyle R_{H}={\frac {E}{\mathbf {J} \cdot B}}\;}$

${\displaystyle B={\frac {E}{\mathbf {J} \cdot R_{H}}}\;}$ ${\displaystyle ={\frac {\left(1{\tfrac {V}{m}}\right)}{\left(50{\tfrac {A}{m^{2}}}\right)\left(5\times 10^{-4}m^{3}\right)}}\;}$ ${\displaystyle =40T\;}$

Problem 3.

a) Sketch a setup used to measure the Hall effect. Label each part.

b) A semiconductor crystal is 5 mm long, 4 mm wide, and 2 mm thick. A 40mA current flows across the length of the sample after a 2-V battery is connected to the ends. When a 0.1T magnetic field is applied perpendicular to the large surface of the specimen, a Hall voltage of 15mV develops across the width of the sample. Determine the i) conductivity, ii) carrier density, iii) mobility, iv) Fermi velocity, for this semiconductor.

Problem 4

a) Derive the expressions for the Fermi energy, Fermi velocity, and electronic density of states for a two-dimensional free electron gas.

b) A 2D electron gas formed in a GaAs/AlGaAs quantum well has a density of ${\displaystyle 2{\rm {x}}10^{11}cm^{-2}}$. Assuming that the electrons there have the free electron mass, calculate the Fermi energy and Fermi velocity.