16 Consider a Si crystal at room temperature doped with 2.25 x 10 Icm As toms....
A n-type silicon crystal has 10^16 cm-3 of doping impurities. At equilibrium and at room temperature (T = 300 K) what the electron and hole concentrations. Indicate which constitutes the majority carriers
At room temperature the electrical conductivity of Si doped with P is 100 (92-ml-?, whereas the electron and hole mobilities are 0.14 and 0.045 m²N-s, respectively. Compute the carrier concentration at room temperature. Select one: a. 1.39 x 1022 m3 O b. 4.46 x 1021 m3 C. 3.37 x 1021 m3 x O d. 4.5 x 10-16 m3
Consider a silicon crystal doped with 10^16 cm-3 Boron. Due to contamination, this crystal also contains deep level traps with an energy level in the middle of the Si bandgap (In other words, Etrap=Ei) and concentration 10^15 cm-3 . These traps can either act like donors or acceptors. At T=300K, determine if the traps are acting as donors or acceptors. Also determine the position of the Fermi level (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...
Consider a semiconductor material X, with the following parameters at a room temperature of 300K: Energy bandgap of Eg = 1.15 ev, density of states at the Conduction band edge of Nc = 4.8e+23, effective density of states at the Valance band edge of Nv = 1e+25, drift mobilities of the electrons and holes, ue and uh, such that ue =0.4 and uh = 0.02. (1) What is the intrinsic concentration and conductivity of 'material x' at room temperature 300K?...
For a Si p-n junction with p-type doping of 1 x 10^16/cm3 and n-type doping of 1 x 10^19/cm3, calculate the built-in potential Vb at 300K, dark, thermal equilibrium condition. Please show the equations and parameters used in the calculation and the value of Ec-Ef, Ef-Ev, and Vb. Please draw a band structure similar to the one in lecture 5 slide 6 based on your results, please also label Ec, Ev, Vb, and Ef in the drawing.
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...
6. A long p-type Si bar, NA-5x1016 cm3, is optically excited and creates a low level of steady state excess carriers at on the left side of the bar (x-o) creating a quasi-Fermi level separation of (E-Fp)-0.42 eV. The carriers diffuse to the right and decay exponentially. Electron and hole lifetimes are both 5 μs Also, it is room temperature, D,-18 cm2/s, Dn-36 cm3/s, and n#1.5x1010 /cm? what is the electron . concentration and current density (A/cm2) at x 50...
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...
Problem3: Consider a MOS capacitor maintained at T 300K with the following characteristics: Assume Esi 1.9,x 3.9,8.85 x 10-14 F/cm, and n 1.5 x 1010cm3 . Gate material is n+ poly-silicon . Total negative oxide charge of 5x 1011q C/cnm2 . Substrate is n-type Si, with doping concentration 1x1016 cm3 Oxide thickness 5 nm . The electron affinity for Si is 4.03eV? a) Draw the band diagram at equilibrium. b) From part (a). What is the substrate (bulk) condition at...