Piezoelectric Effect in Radiation Physics
Radiation Physics-2
Al-Mustaqbal University College
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Piezoelectric Effect
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Note:
A transducer is any device that converts one form of energy into another. An
ultrasound transducer converts electrical energy into ultrasound energy and
vice versa.
Transducers for ultrasound imaging consist of one or more piezoelectric
crystals or elements.
Imaging is often performed with multiple-element “arrays” of piezoelectric
crystals.
Historical of Piezoelectric Materials
The word piezoelectricity means the ability of some materials (notably crystals and certain
ceramics, including bone) to generate an electric charge or of electric polarity in dielectric crystals
in response to applied mechanical stress in such crystals subjected to an applied voltage.
The piezoelectric effect is exhibited by certain crystals that, in response to applied pressure,
develop a voltage across opposite surfaces. This effect is used to produce an electrical signal in
response to incident ultrasound waves.
The piezoelectric effect was first described by Pierre and Jacques Curie in 1880 using natural
quartz
Today, it is known that many materials such as quartz, topaz, cane sugar, Rochelle salt, and bone
have this effect.
Piezoelectric Materials
Materials generate an electrical voltage from separation of positive and negative charges
when they are squeezed or stretched.
The charge that accumulates in certain solid materials (notably crystals, certain ceramics,
and biological matter such as bone, DNA and various proteins) in response to applied
mechanical stress.
Each molecule is polarized since one end is more negatively charged and the other end is
positively charged, and is called a
dipole
as a result of the atoms that make up the molecule
and the way the molecules are shaped.
Figure 1 explains what happens if the SiO2 is put under mechanical stress (symbolized by
yellow arrows). The overall formula of quartz is SiO2, and since every oxygen atom
carries the same extra amount of negative charge taken from silicon atom, the central
silicon atoms carries 2 positive charges and the oxygen just one negative charge.
Figure: A piezoelectric disk generates a voltage when deformed (change in shape is
greatly exaggerated) Quartz (SiO2): Effect of deformation on charge distribution.
when applying an alternating current (AC) across the materials causes them to oscillate at
very high frequencies, thus producing very high frequency sound waves.
The magnitude of the electrical signal varies directly with the wave pressure of the
incident ultrasound. Similarly, application of a voltage across the crystal causes
deformation of the crystal either compression or extension depending upon the polarity of
the voltage. This deforming effect, termed the converse piezoelectric effect, is used to
produce an ultrasound beam from a transducer
Piezoelectric Effect
The piezoelectric effect
is the ability of certain non-conducting materials, such as quartz
crystals and ceramics, to generate electric current when they are exposed to mechanical
stress (such as pressure or vibration).
The piezoelectric effect occurs only in crystals with
a special crystal structure which
they lack of center of symmetry
(see figure 2). Under an applied force the centers of
mass for positive and negative ions are shifted which results in a net dipole moment.
In the absence of an applied force, the center of mass of the positive ions coincides with
that of the negative ions and there is no resulting dipole moment or polarization.
Reverse Piezoelectric Effect
The piezoelectric effect is a reversible process in that materials exhibiting the
direct piezoelectric effect (the internal generation of electrical charge resulting
from an applied mechanical force)
Also exhibit the reverse piezoelectric effect (the internal generation of a
mechanical strain resulting from an applied electrical field). This effect is
formed in crystals that have no center of symmetry.
Hence the piezoelectric crystals are both transmitter (small proportion of the
time) and receiver (most of the time).
Detection of Ultrasound
If ultrasound hits the crystal from outside, it will cause the crystal to vibrate in and
out, and this will produce an alternating electric field. The resulting electrical
signal can be amplified and processed in a number of ways.
The resulting electrical signal can be amplified and processed in a number of
ways. So a second crystal can be used to detect any returning ultrasound which
has been reflected from an obstacle.
Normally the transmitting and receiving crystals are built into the same hand-held
unit, which is called an ultrasonic transducer
what is the material used by doctors and placed on the skin prior to the examination: Ultrasound gel is a
type of conductive medium that is used in ultrasound diagnostic techniques and treatment therapies. It is
placed on the patient’s skin at the beginning of the ultrasound examination or therapy. The transducer,
which is the device used to send and receive sound waves, is then placed on top of it.
Piezoelectric materials like quartz can convert mechanical stress into electrical charges, enabling devices like ultrasound transducers. The historical significance of piezoelectricity, the molecular polarization in materials, and the practical applications of this effect are explored in this informative content presentation.
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Presentation Transcript
Radiation Physics-2 Al-Mustaqbal University College 3rd Piezoelectric Effect 3 Assistant lecturer: Assistant lecturer: AnsamFadil AnsamFadil Ali Ali Showard Showard
Note: A transducer is any device that converts one form of energy into another. An ultrasound transducer converts electrical energy into ultrasound energy and vice versa. Transducers for ultrasound imaging consist of one or more piezoelectric crystals or elements. Imaging is often performed with multiple-element arrays of piezoelectric crystals.
Historical of Piezoelectric Materials The word piezoelectricity means the ability of some materials (notably crystals and certain ceramics, including bone) to generate an electric charge or of electric polarity in dielectric crystals in response to applied mechanical stress in such crystals subjected to an applied voltage. The piezoelectric effect is exhibited by certain crystals that, in response to applied pressure, develop a voltage across opposite surfaces. This effect is used to produce an electrical signal in response to incident ultrasound waves. The piezoelectric effect was first described by Pierre and Jacques Curie in 1880 using natural quartz Today, it is known that many materials such as quartz, topaz, cane sugar, Rochelle salt, and bone have this effect.
Piezoelectric Materials Materials generate an electrical voltage from separation of positive and negative charges when they are squeezed or stretched. The charge that accumulates in certain solid materials (notably crystals, certain ceramics, and biological matter such as bone, DNA and various proteins) in response to applied mechanical stress. Each molecule is polarized since one end is more negatively charged and the other end is positively charged, and is called a dipole as a result of the atoms that make up the molecule and the way the molecules are shaped.
Figure 1 explains what happens if the SiO2 is put under mechanical stress (symbolized by yellow arrows). The overall formula of quartz is SiO2, and since every oxygen atom carries the same extra amount of negative charge taken from silicon atom, the central silicon atoms carries 2 positive charges and the oxygen just one negative charge.
Figure: A piezoelectric disk generates a voltage when deformed (change in shape is greatly exaggerated) Quartz (SiO2): Effect of deformation on charge distribution.
when applying an alternating current (AC) across the materials causes them to oscillate at very high frequencies, thus producing very high frequency sound waves. The magnitude of the electrical signal varies directly with the wave pressure of the incident ultrasound. Similarly, application of a voltage across the crystal causes deformation of the crystal either compression or extension depending upon the polarity of the voltage. This deforming effect, termed the converse piezoelectric effect, is used to produce an ultrasound beam from a transducer
Piezoelectric Effect The piezoelectric effect is the ability of certain non-conducting materials, such as quartz crystals and ceramics, to generate electric current when they are exposed to mechanical stress (such as pressure or vibration). The piezoelectric effect occurs only in crystals with a special crystal structure which they lack of center of symmetry (see figure 2). Under an applied force the centers of mass for positive and negative ions are shifted which results in a net dipole moment. In the absence of an applied force, the center of mass of the positive ions coincides with that of the negative ions and there is no resulting dipole moment or polarization.
Reverse Piezoelectric Effect The piezoelectric effect is a reversible process in that materials exhibiting the direct piezoelectric effect (the internal generation of electrical charge resulting from an applied mechanical force) Also exhibit the reverse piezoelectric effect (the internal generation of a mechanical strain resulting from an applied electrical field). This effect is formed in crystals that have no center of symmetry. Hence the piezoelectric crystals are both transmitter (small proportion of the time) and receiver (most of the time).
Detection of Ultrasound If ultrasound hits the crystal from outside, it will cause the crystal to vibrate in and out, and this will produce an alternating electric field. The resulting electrical signal can be amplified and processed in a number of ways. The resulting electrical signal can be amplified and processed in a number of ways. So a second crystal can be used to detect any returning ultrasound which has been reflected from an obstacle. Normally the transmitting and receiving crystals are built into the same hand-held unit, which is called an ultrasonic transducer what is the material used by doctors and placed on the skin prior to the examination: Ultrasound gel is a type of conductive medium that is used in ultrasound diagnostic techniques and treatment therapies. It is placed on the patient s skin at the beginning of the ultrasound examination or therapy. The transducer, which is the device used to send and receive sound waves, is then placed on top of it.
