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Note: In following problems use (if needed) B=1.08x1031K3.cm-6 for Si and...
please show step by step how to solve it Note: In following problems use (if needed)...
please show step by step how to solve it
Note: In following problems use (if needed) B=1.08x1031K3.cm-6 for Si and B 2.31x10-0K'3.cm" for Ge. Eg (for Si 1.12 eV. Eg (for Ge)-0.66 eV Boltzmann's constant = 8.62x10-5 eV'K= 1.3804410-23J/0K #6) Silicon is doped with a Indium atoms of 7x10 19 atoms/cm 3, Find the electron and hole concentrations, the electron and hole mobility, and resistivity of the this silicon material at room temperature. Is this material n or p type?...
2. (a) A piece of silicon is doped with 5x107/cm boron atoms. Find the hole and...
2. (a) A piece of silicon is doped with 5x107/cm boron atoms. Find the hole and electron concentrations at room temperature (20°C) and at 150°C. (b) Calculate the resistance of the silicon piece in part (a), if it has length of 10 um and cross-section of 10 um'. Use mobility values from the mobility vs carrier concentration plot from lecture slides. (c) Repeat steps (a) and (b) for the Si doped with 104 cm boron atoms. What you mention for...
14 Q1. Given a NA = 10 /cm" doped Si sample a) b) c) Calculate Ef...
14 Q1. Given a NA = 10 /cm" doped Si sample a) b) c) Calculate Ef as a function of Temperature T at 500K intervals from 3000K to 5000K. Any conclusion could be drawn from a) part? If the donor has ND-1014/cm3 to replace the NA, what is the Ef at 3000K, 4000K and 5000K The band gap affected by temperature should be included. Q2. At 300K, please find the doping limit of both n-type and p-type Ge to have...
**Please Show All The Steps** As I mentioned in the class assume that we have a...
**Please Show All The Steps**
As I mentioned in the class assume that we have a GaAs (Gallium
Arsenide) sample which was doped with excessive As to produce a
resistivity of 0.05 Ωm. Owing to the presence of an unknown
acceptor impurity the actual resistivity was 0.06Ωm, the sample
remaining n-type. What were the concentrations of donors and
acceptors present?
(Please take μe=0.85 m2/Vs and assume that all impurity atoms
are ionized)
PHYSICAL CONSTANTS Avagadro's Number NA- 6.02 x 10*23...
Taking pure silicon (Si) as an example, explain what is meant by the terms electron-hole generation...
Taking pure silicon (Si) as an example, explain what is meant by the terms electron-hole generation and recombination, how they affect the electrical conductivity, and define what is meant by the "intrinsic carrier density", n. [5 marks] Q3. a) b) With the aid of both lattice and energy band diagrams, explain how n-type doping of Si is achieved and state two types of suitable dopant atoms. [7 marks] c) An n-type region on a Si wafer has a donor concentration...
EENG 245 Physical electronics HW 1 1) The NaCl crystal is cubic, and can be described...
EENG 245 Physical electronics HW 1 1) The NaCl crystal is cubic, and can be described as follows. Na atoms sit at the corners and faces of a cube, and Cl atoms sit in between two Na atoms. This means that a Clatom is found half-way along each of the cube edges, and there is a Cl in the center of the cube. (We could also have described the lattice by interchanging Na and Cl in the description above.) Another...
please show step by step how to solve it
Note: In following problems use (if needed) B=1.08x1031K3.cm-6 for Si and B 2.31x10-0K'3.cm" for Ge. Eg (for Si 1.12 eV. Eg (for Ge)-0.66 eV Boltzmann's constant = 8.62x10-5 eV'K= 1.3804410-23J/0K #6) Silicon is doped with a Indium atoms of 7x10 19 atoms/cm 3, Find the electron and hole concentrations, the electron and hole mobility, and resistivity of the this silicon material at room temperature. Is this material n or p type?...
2. (a) A piece of silicon is doped with 5x107/cm boron atoms. Find the hole and electron concentrations at room temperature (20°C) and at 150°C. (b) Calculate the resistance of the silicon piece in part (a), if it has length of 10 um and cross-section of 10 um'. Use mobility values from the mobility vs carrier concentration plot from lecture slides. (c) Repeat steps (a) and (b) for the Si doped with 104 cm boron atoms. What you mention for...
14 Q1. Given a NA = 10 /cm" doped Si sample a) b) c) Calculate Ef as a function of Temperature T at 500K intervals from 3000K to 5000K. Any conclusion could be drawn from a) part? If the donor has ND-1014/cm3 to replace the NA, what is the Ef at 3000K, 4000K and 5000K The band gap affected by temperature should be included. Q2. At 300K, please find the doping limit of both n-type and p-type Ge to have...
**Please Show All The Steps**
As I mentioned in the class assume that we have a GaAs (Gallium
Arsenide) sample which was doped with excessive As to produce a
resistivity of 0.05 Ωm. Owing to the presence of an unknown
acceptor impurity the actual resistivity was 0.06Ωm, the sample
remaining n-type. What were the concentrations of donors and
acceptors present?
(Please take μe=0.85 m2/Vs and assume that all impurity atoms
are ionized)
PHYSICAL CONSTANTS Avagadro's Number NA- 6.02 x 10*23...
Taking pure silicon (Si) as an example, explain what is meant by the terms electron-hole generation and recombination, how they affect the electrical conductivity, and define what is meant by the "intrinsic carrier density", n. [5 marks] Q3. a) b) With the aid of both lattice and energy band diagrams, explain how n-type doping of Si is achieved and state two types of suitable dopant atoms. [7 marks] c) An n-type region on a Si wafer has a donor concentration...
EENG 245 Physical electronics HW 1 1) The NaCl crystal is cubic, and can be described as follows. Na atoms sit at the corners and faces of a cube, and Cl atoms sit in between two Na atoms. This means that a Clatom is found half-way along each of the cube edges, and there is a Cl in the center of the cube. (We could also have described the lattice by interchanging Na and Cl in the description above.) Another...
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