Find the resistance of 1 cm 3 pure silicon crystal. What is the resistance when the crystal is doped with arsenic if the doping is 1 in 10 9 , that is 1 part per billion(ppb). Given data: Atomic concentration in silicon is 5×10 22  cm −3 ,n i​ =1.0×10 10  cm −3 ,μ c​ =1350 cm 2  V −1  s −1 &μ h​ =480 cm 2  V −1  s −1

Arsenic is ion implanted into a uniformly doped, bare 𝑝-type Si substrate doped to NA =1016 cm-3. The implant energy is 𝐸 = 100 keV and the implant dose is 𝜙 = 8x1014 cm-2. For aprojected range of 𝑅𝑝 = 0.06 m and a projected straggle of Δ𝑅𝑝= 0.02 m, calculate:(a) the peak As density (in cm-3) [10 Pts](b) the surface As density (in cm-3) [10 Pts](c) the junction depth 𝑥𝑗 (in m). [10 Pts]𝑁(𝑥) = 𝜙√2𝜋∆𝑅𝑝𝑒𝑥𝑝 (− (𝑥 − 𝑅𝑝)22∆𝑅𝑝2

For a 𝑝-type substrate doped to NA = 4.5x1015 cm-3 and diffusion of arsenic from a constantsurface density of 1.5x1021 cm-3, calculate (use k = 8.62x10-5 eV/K):(a) the junction depth 𝑥𝑗 (in m) for diffusion at T = 1100 °C for t = 90 min. [10 Pts](b) the time (in min) required for a junction depth of 𝑥𝑗= 1 m at 1100 °C. [10 Pts]Use the diffusion equation below:𝑁(𝑥, 𝑡) = 𝑁0𝑒𝑟𝑓𝑐 ( 𝑥2√𝐷𝑡)where𝑁0 is the surface density (#/cm3).𝐷 is the diffusion coefficient and given by 𝐷 = 24exp(-Ea/kT) cm2/s for arsenicin silicon. Ea = 4.08 eV.𝑡 is the length of time the diffusion takes place (s)The complementary error function erfc(y) can be found in many math apps includingExcel

Resistance of a conductivity cell (cell constant 129 m–1) filled with 74.5 ppm solution of KCl is 100  Ω (labeled as solution 1). When the same cell is filled with KCl solution of 149 ppm, the resistance is 50  Ω (labeled as solution 2). The ratio of molar conductivity of solution 1 and solution 2 is i.e.  ∧1∧2  =  x × 10−3. The value of x is______. (Nearest integer)Given, molar mass of KCl is 74.5 g mol–1.

Resistance between two opposite faces of square thin film of area 1 mm2 having thickness of1 μm if resistivity of material is 10 6 Ω will be:A) 1000 Ω C) 1 ΩB) 100 Ω D) 10 ΩQ.18 Total resistance between ‘A’ and ‘B’ in the given circuit is:5 ΩA5 Ω 5 Ω 5 ΩBA) 5.6 Ω C) 0.33 ΩB) 3.33 Ω D) 6.6 ΩA B6 Ω 6 Ω 6 Ω

A Si 𝑝𝑛 step junction with NA = 1019 cm-3 (consider this to be nondegenerate),ND = 1015 cm-3, Ks=11.7, and 𝑛𝑖 = 1010 cm-3 is at room temperature (kT/q = 0.026 V).Using the depletion approximation and VA = 0, calculate: [20 Pts](a) Vbi; (b) xn, xp, and W (all in cm); (c) what percentage of W is on 𝑝-side? The 𝑛-side?(d) 𝑛𝑝 and 𝑝𝑛; (e) the electric field at x = 0Using the depletion approximation and VA = 0, draw:(f) the charge density and the electric field to the same x-axis scale. [15 Pts](g) the energy band diagram for the 𝑝𝑛 diode. Calculate EF-Ei on the quasi-neutral 𝑝- and 𝑛-sides and indicate these on the band diagram. [15 Pts]