IONIC POLARIZATION AND�DIELECTRIC RESONANCE-By Tahmid Rongon,Electrical Properties Of Matarials

2,619 views 23 slides Feb 28, 2017

Slide 1 of 23

About This Presentation

IONIC POLARIZATION AND�DIELECTRIC RESONANCE..Polarization is the separation of positive and negative charges in a system so that there is a net electric dipole moment per unit volume.
Ionic polarization is polarization caused by relative displacements between positive and negative ions in ionic cr...

Size: 219.99 KB

Language: en

Added: Feb 28, 2017

Slides: 23 pages

Slide Content

Prepared by Md.Mostak Tahmid Rongon

IONIC POLARIZATION AND DIELECTRIC RESONANCE

Polarization Polarization is the separation of positive and negative charges in a system so that there is a net electric dipole moment per unit volume.

IONIC POLARIZATION Ionic polarization is polarization caused by relative displacements between positive and negative ions in ionic crystals . This type of polarization occurs in ionic crystals such as NaCl, KCl etcs .

DIELECTRIC RESONANCE Dielectric resonance occurs when the frequency of the applied ac field is such that there is maximum energy transfer from the ac voltage source to heat in the dielectric through the alternating polarization and depolarization of the molecules by the ac field.

Derivation of t he dielectric dispersion relation between the relative permittivity, due to ionic polarization and the frequency of the electric field.

Consider two oppositely charged neighboring ions Na + and CI – , which experience forces QE in opposite directions where Q is the magnitude of the ionic charge of each ion as shown in Figure. The bond between the ions becomes stretched and the two ions become displaced from the equilibrium separation r to a new separation r + x as depicted in Figure.

The force F= QE of the applied field is the polarizing force, which causes the relative displacement. We take F to be along the x direction. The applied force is resisted by a restoring force F r that is due to the stretching of the bond (Hooke's law) and is proportional to the amount of bond stretching, that is- Fr = - βx ……………………………….① Where, β is the spring constant associated with the ionic bond the negative sign ensures that Fr is directed in the opposite direction to the applied force.

T he ions are oscillated by the applied force . They couple some of the energy in the applied field to lattice vibrations and this energy is then lost as heat in the crystal. energy loss through a coupling mechanism can be represented as a frictional force,F loss (force associated with losses) that acts against the effect of the applied force.

This frictional force is proportional to the velocity of the ions or dx/ dt , so it is written as F loss = -γ (dx / dt )………………..② Where, γ is a proportionality constant that depends on the exact mechanism for the energy loss from the field the negative sign ensures that it is opposing the applied field.

So the total (net) force on the ions is, …………….③ Normally we would examine the equations of motion (Newton's second law) under forced oscillation for each ion separately.

An equivalent procedure (as well known in mechanics) is to keep one ion stationary and allow the other one to oscillate with a reduced mass M r , which is M r = (M + + M - )/(M + + M - ) where M + and M - are the masses of Na + and Cl - ions respectively.

For example, we can simply examine the oscillations of the Na + -ion within the reference frame of the Cl - ion and attach a reduced mass M r to Na + as depicted in Figure. Then Newton's second law gives- …………….④

It is convenient to put M r and β together into a new constant w 1 which represents the resonant or natural angular frequency of the ionic bond. when the applied force is removed. Defining w 1 = ( β+ M + ) 1/2 and ϒ 1 as ϒ per unit reduced mass. That is - ϒ = ϒ 1 / M r

………④ …………⑤ This equation is called the forced oscillator equation. The solution to Equation will give the displacement x = x exp ( jw t ), which have the same time dependence as E but phase shifted; that is, x will be a complex number.

The relative displacement of the ions from the equilibrium gives rise to a net or induced polarization P i = Qx . Thus this equation can be multiplied by Q to represent the forced oscillations. When we divide P i by the applied field E , we get the ionic polarizability- …………⑦ Equation is also called the Lorentz dipole oscillator model .

when ω = 0,under dc conditions, the ionic polarizability a i (0) from Equation, ………………………………⑧ The dc polarizability is a real quantity as there can be no phase shift under dc conditions. We can then write the ionic polarizability in Equation 7 in terms of the normalized frequency ( ω / ω 1 ) as- …………………………………………⑨

The dependences of the real and imaginary parts of a i , on the frequency of the field are shown on the Figure. In terms of the normalized frequency ( ω / ω 1 ) for one particular value of the loss factor, γ 1 = 0.1 ω 1

At high frequencies, well above ω 1 ,the ions cannot respond to the rapidly changing field and the coupling between the field and the ions is negligible. The peak in the a i ’’ versus ω behavior around ω = ω 1 . which is called the dielectric resonance peak and in this particular case it is called the ionic polarization relaxation peak and is due to the strong coupling of the applied field with the natural vibrations of the ionic bond at ω = ω 1 .

The resulting relative permittivity є r can be found from the Clausius-Mossotti equation. But we also have to consider the electronic polarizability a e of the two types of ions since this type of polarization operates up to optical frequencies ( ω » ω 1 ), which means that ……………………………………⑩ where N i is the concentrations of negative and positive ion pairs.

We can express Equation ⑩ differently by noting that at very high frequencies, co » al. = 0, and the relative permittivity is the denoted as є rop . Equation ⑩ then becomes- This is called the dielectric dispersion relation between the relative permittivity, due to ionic polarization, and the frequency of the electric field.

summary Polarization ionic polarization Dielectric resonance the dielectric dispersion relation between the relative permittivity due to ionic polarization Finding the value of ionic resonance absorption frequency

IONIC POLARIZATION AND�DIELECTRIC RESONANCE-By Tahmid Rongon,Electrical Properties Of Matarials

About This Presentation

Slide Content

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

IONIC POLARIZATION AND�DIELECTRIC RESONANCE-By Tahmid Rongon,Electrical Properties Of Matarials

About This Presentation

Slide Content

Slide 1

Slide 2

Slide 3

Slide 4

Slide 5

Slide 6

Slide 7

Slide 8

Slide 9

Slide 10

Slide 11

Slide 12

Slide 13

Slide 14

Slide 15

Slide 16

Slide 17

Slide 18

Slide 19

Slide 20

Slide 21

Slide 22

Slide 23

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

Pray For The Peace Of Jerusalem and You Will Prosper

Don_t_Waste_Your_Life_God.....powerpoint

VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf

Fertility awareness methods for women in the society

Chapter 5 Arithmetic Functions Computer Organisation and Architecture

syakira bhasa inggris (1) (1).pptx.......