6.007 lecture 15: dielectrics and dipoles
TRANSCRIPT
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Dielectrics and Dipoles
Reading – Shen and Kong – Ch. 10
Outline
• Polarization and Dipole Density
• Dielectric Constant
• Microphones
• More Dielectric Actuators
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True or False?
1. The magnetic moment is
defined as
m = i a and has units of Amp-m2
2. In a linear magnetic material, the
magnetization is given by
where is the magnetic susceptibility
with units of m3
3. The energy stored in the magnetic field is
(½ µ H2)·(Volume) and has units of Joules. o
NI2πr
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Electric Fields Magnetic Fields
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d
Air Capacitors
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… let’s insert a metal sheet between capacitor plates
d
- Capacitance increases
- Since σ remained the same
then decreases
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… let’s insert an insulator sheet
between capacitor plates
d
- Capacitance increases
- Since σ remained the same
then decreases
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Why is there σdielectric ?
What is the magnitude of σdielectric ?
Electric field polarizes molecules …
… turns them into DIPOLES
When molecules are in an electric field they get stretched
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What is a Dipole ?
- -
- -
- -
- -
-
+ +
+ + + +
- -
- -
- -
- -
- -
+ +
+ + + +
NO external E filed external E filed stretches
the atom/molecule
Dipole Moment =
electric dipole moment, p (or electric dipole for short), is a measure of the polarity of a
system of electric charges. Here x is the displacement vector pointing from the negative
charge to the positive charge. This implies that the electric dipole moment vector points from
the negative charge to the positive charge. Note that the electric field lines run away from the
positive charge and toward the negative charge. There is no inconsistency here, because the
electric dipole moment has to do with the positions of the charges, not the field lines.
small amount
of charge moved by
field E
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Analogy Between Magnetic and Electric Dipoles
Magnetic Fields Electric Field
Magnetic
Moment
m = i a
Electric Dipole
Moment
m = q d
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Superposition
The magnetization or net
magnetic dipole moment
density is given by
average
magnetic dipole
moment [A m2]
Number of
dipoles per unit
volume [m-3]
[A/m]
The polarization or net
electric dipole moment
density is given by
average
electric dipole
moment [C m]
Number of
dipoles per unit
volume [m-3]
[C/m2]
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Induced Magnetization
The effect of an applied magnetic field on a magnetic material
is to create a net magnetic dipole moment per unit volume M
For some materials, the net magnetic dipole
moment per unit volume is proportional to
the H field
MAGNETIC
SUSCEPTIBILITY
units of
both M and H
are A/m.
(dimensionless)
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Electric field polarizes molecules… Density of dipoles….
… equivalent to …
electric susceptibility of a
dielectric material is a measure
of how easily it polarizes in
response to an electric field
polarization density, P (a.k.a electric polarization, or
simply polarization) - density of permanent or induced
electric dipole moments in a dielectric material.
The SI unit of measure is coulombs per square meter.
Induced Polarization
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Origin of the Dielectric Response Polarizability, α, tells us how
easy is to disturb charge
distribution, like the electron
cloud of an atom or molecule,
from its normal shape by an
external electric field.
1. Electronic Polarizability (αe) Polarization of localized electrons
2. Ionic Polarizability (αi) Displacement of ions
3. Dipolar Polarizability (αd) Reorientation of polar molecules
4. Space Charge Polarizability (αs) Long range charge migration
Polarizability (α)
increases
Response Time
Increases
(slower
response)
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+
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+
-+
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Bound Charges and Polarization
high dipole density low dipole density
negative interface charge
- -
- -
- -
- -
- -
+ +
+ + + +
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… let’s insert an insulator sheet
between capacitor plates
d
equivalently …
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… let’s insert an insulator sheet
between capacitor plates
Electric displacement D
d equivalently …
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where we define electric displacement field, D, as
Displacement field D accounts for the effects of
unbound (“free”) charges within materials.
Electric field E accounts for the effects of
total charges (both “bound” and “free”) within materials.
Displacement Fields
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A ferroelectric material develops a spontaneous polarization
(builds up a charge) in response to an external electric field
• The polarization does not
go away when the
external field is removed
• The direction of the
polarization is reversible
• Examples BaTiO3
PbTiO3
Applications of Ferroelectric Materials
• Non-volatile FRAM (Ferroelectric Random Access Memory)
Ferroelectrics
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Why Worry About Dielectrics ?
Capacitor in 90, 65nm Capacitor in 45n
SiO2 e/eo =3.9 HfO2 e/eo =25
m
As transistors scale, insulation within the capacitor has become leaky…
N Type
P Type P Type
Gate
Terminal Source
Termina
Drain
Terminal
Metal
l
19
Gate Gate
1.2 nm SiO2 3.0 nm high-k dielectric
Silicon Substrate Silicon Substrate
Existing 90 nm processCapacitance = 1x
Leakage current = 1x
A potential high-k processCapacitance = 1.6x
Leakage current = 0.01x
Image by MIT OpenCourseWare.
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Energy Density of the Electric Field
What is the energy density stored in the capacitor ?
For a capacitor with large, flat plates…
The electric field is not just the origin of electrostatic
forces but also tells us about the stored energy ! 20
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Linear Dielectric Slab Actuator
Note: We are going
to keep Q constant
on the plates
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Electromagnetic Energy Storage
Remember …
Magnetic Electric
Magnetic machine Electric machine
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Key Takeaways
Magnetic Electric
Electric displacement
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6.007 Electromagnetic Energy: From Motors to LasersSpring 2011
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