Electron Concentration under Unbalanced Condition Solution

STEP 0: Pre-Calculation Summary
Formula Used
Electron Concentration = Intrinsic Electron Concentration*exp((Quasi Fermi Level of Electrons-Intrinsic Energy Level of Semiconductor)/([BoltZ]*Absolute Temperature))
ne = ni*exp((Fn-Ei)/([BoltZ]*T))
This formula uses 1 Constants, 1 Functions, 5 Variables
Constants Used
[BoltZ] - Boltzmann constant Value Taken As 1.38064852E-23
Functions Used
exp - n an exponential function, the value of the function changes by a constant factor for every unit change in the independent variable., exp(Number)
Variables Used
Electron Concentration - (Measured in Electrons per Cubic Meter) - Electron Concentration refers to the number of electrons per unit volume in a semiconductor under non-equilibrium conditions.
Intrinsic Electron Concentration - (Measured in Electrons per Cubic Meter) - Intrinsic Electron Concentration is the no. of charge carriers in a semiconductor when it is in thermal equilibrium.
Quasi Fermi Level of Electrons - (Measured in Joule) - Quasi Fermi Level of Electrons is the effective energy level for electrons in a non-equilibrium condition. It represents the energy up to which electrons are populated.
Intrinsic Energy Level of Semiconductor - (Measured in Joule) - Intrinsic Energy Level of Semiconductor refers to the energy level associated with electrons in the absence of any impurities or external influences.
Absolute Temperature - (Measured in Kelvin) - Absolute Temperature represents the temperature of the system.
STEP 1: Convert Input(s) to Base Unit
Intrinsic Electron Concentration: 3.6 Electrons per Cubic Meter --> 3.6 Electrons per Cubic Meter No Conversion Required
Quasi Fermi Level of Electrons: 3.7 Electron-Volt --> 5.92805612100003E-19 Joule (Check conversion ​here)
Intrinsic Energy Level of Semiconductor: 3.78 Electron-Volt --> 6.05623030740003E-19 Joule (Check conversion ​here)
Absolute Temperature: 393 Kelvin --> 393 Kelvin No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ne = ni*exp((Fn-Ei)/([BoltZ]*T)) --> 3.6*exp((5.92805612100003E-19-6.05623030740003E-19)/([BoltZ]*393))
Evaluating ... ...
ne = 0.33915064947035
STEP 3: Convert Result to Output's Unit
0.33915064947035 Electrons per Cubic Meter --> No Conversion Required
FINAL ANSWER
0.33915064947035 0.339151 Electrons per Cubic Meter <-- Electron Concentration
(Calculation completed in 00.020 seconds)

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Electron Concentration under Unbalanced Condition Formula

​LaTeX ​Go
Electron Concentration = Intrinsic Electron Concentration*exp((Quasi Fermi Level of Electrons-Intrinsic Energy Level of Semiconductor)/([BoltZ]*Absolute Temperature))
ne = ni*exp((Fn-Ei)/([BoltZ]*T))

Why is Fermi Level ​crucial in describing non-equilibrium electron concentration in semiconductors?

The quasi-Fermi level reflects the effective energy at which electrons are populated in non-equilibrium. In the formula it influences the exponential term, capturing deviations from thermal equilibrium and illustrating the impact of energy levels on electron concentration.

How to Calculate Electron Concentration under Unbalanced Condition?

Electron Concentration under Unbalanced Condition calculator uses Electron Concentration = Intrinsic Electron Concentration*exp((Quasi Fermi Level of Electrons-Intrinsic Energy Level of Semiconductor)/([BoltZ]*Absolute Temperature)) to calculate the Electron Concentration, Electron Concentration under Unbalanced Conditions is used to describe the electron concentration in a semiconductor under non-equilibrium conditions, where the electron distribution deviates from the thermal equilibrium distribution. Electron Concentration is denoted by ne symbol.

How to calculate Electron Concentration under Unbalanced Condition using this online calculator? To use this online calculator for Electron Concentration under Unbalanced Condition, enter Intrinsic Electron Concentration (ni), Quasi Fermi Level of Electrons (Fn), Intrinsic Energy Level of Semiconductor (Ei) & Absolute Temperature (T) and hit the calculate button. Here is how the Electron Concentration under Unbalanced Condition calculation can be explained with given input values -> 0.339151 = 3.6*exp((5.92805612100003E-19-6.05623030740003E-19)/([BoltZ]*393)).

FAQ

What is Electron Concentration under Unbalanced Condition?
Electron Concentration under Unbalanced Conditions is used to describe the electron concentration in a semiconductor under non-equilibrium conditions, where the electron distribution deviates from the thermal equilibrium distribution and is represented as ne = ni*exp((Fn-Ei)/([BoltZ]*T)) or Electron Concentration = Intrinsic Electron Concentration*exp((Quasi Fermi Level of Electrons-Intrinsic Energy Level of Semiconductor)/([BoltZ]*Absolute Temperature)). Intrinsic Electron Concentration is the no. of charge carriers in a semiconductor when it is in thermal equilibrium, Quasi Fermi Level of Electrons is the effective energy level for electrons in a non-equilibrium condition. It represents the energy up to which electrons are populated, Intrinsic Energy Level of Semiconductor refers to the energy level associated with electrons in the absence of any impurities or external influences & Absolute Temperature represents the temperature of the system.
How to calculate Electron Concentration under Unbalanced Condition?
Electron Concentration under Unbalanced Conditions is used to describe the electron concentration in a semiconductor under non-equilibrium conditions, where the electron distribution deviates from the thermal equilibrium distribution is calculated using Electron Concentration = Intrinsic Electron Concentration*exp((Quasi Fermi Level of Electrons-Intrinsic Energy Level of Semiconductor)/([BoltZ]*Absolute Temperature)). To calculate Electron Concentration under Unbalanced Condition, you need Intrinsic Electron Concentration (ni), Quasi Fermi Level of Electrons (Fn), Intrinsic Energy Level of Semiconductor (Ei) & Absolute Temperature (T). With our tool, you need to enter the respective value for Intrinsic Electron Concentration, Quasi Fermi Level of Electrons, Intrinsic Energy Level of Semiconductor & Absolute Temperature and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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