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    Dieletric ppt-1

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    YASH JAIN
    Orientation polarization is the slowest polarization mechanism. Orientation polarization occurs in polar molecules and involves the rotation of the molecular dipoles to align with the applied electric field. This process requires overcoming thermal energy and interactions with surrounding molecules, making it strongly temperature dependent. The other polarization mechanisms—electronic, ionic, and space charge—occur on faster timescales from 10-15 to 10-13 seconds as they involve only the displacement of lighter electrons or ions within their parent structures. Orientation polarization can take milliseconds to occur as it requires reorienting entire molecules within the dielectric material.

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    Dieletric ppt-1

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    YASH JAIN
    717 views18 pages
    Orientation polarization is the slowest polarization mechanism. Orientation polarization occurs in polar molecules and involves the rotation of the molecular dipoles to align with the applied electric field. This process requires overcoming thermal energy and interactions with surrounding molecules, making it strongly temperature dependent. The other polarization mechanisms—electronic, ionic, and space charge—occur on faster timescales from 10-15 to 10-13 seconds as they involve only the displacement of lighter electrons or ions within their parent structures. Orientation polarization can take milliseconds to occur as it requires reorienting entire molecules within the dielectric material.

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    Orientation polarization is the slowest polarization mechanism. Orientation polarization occurs in polar molecules and involves the rotation of the molecular dipoles to align with the applied electric field. This process requires overcoming thermal energy and interactions with surrounding molecules, making it strongly temperature dependent. The other polarization mechanisms—electronic, ionic, and space charge—occur on faster timescales from 10-15 to 10-13 seconds as they involve only the displacement of lighter electrons or ions within their parent structures. Orientation polarization can take milliseconds to occur as it requires reorienting entire molecules within the dielectric material.

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    Dieletric ppt-1

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    YASH JAIN
    Orientation polarization is the slowest polarization mechanism. Orientation polarization occurs in polar molecules and involves the rotation of the molecular dipoles to align with the applied electric field. This process requires overcoming thermal energy and interactions with surrounding molecules, making it strongly temperature dependent. The other polarization mechanisms—electronic, ionic, and space charge—occur on faster timescales from 10-15 to 10-13 seconds as they involve only the displacement of lighter electrons or ions within their parent structures. Orientation polarization can take milliseconds to occur as it requires reorienting entire molecules within the dielectric material.

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    Dielectric Materials

    Dielectric materials are also called as insulators.


     In dielectric materials, all the electrons are tightly bound to their parent
    molecules and there are no free charges.
    Not possible for the electrons in the valence band to excite to the
    conduction band, by crossing the energy gap, even with normal voltage or
    thermal energy.
    A dielectric material (dielectric for short) is an electrical insulator that can
    be polarized by an applied electric field When a dielectric is placed in an
    electric field, electric charges do not flow through the material as they do in
    a conductor, but only slightly shift from their average equilibrium positions
    causing dielectric polarization
    Note that during the polarization the charges in the dielectric medium are displaced from their
    equilibrium positions by distances that are considerably less than the atomic diameter . Thus
    there is no net transfer of charge over large distances which occurs when s current is sent up in
    conductor
     WHAT IS Electric POLARIZATION???
    The displacement of positive and negative charges in opposite directions in
    a dielectric.
    P=p/V
    Basic Definitions in Dielectrics
    Electric Field
    The region around the charge within which its effect is
    felt or experienced is known as electric field.
    The electric field is assumed to consist of imaginary electric
    lines of force. These lines of force originate from the positive
    charges and terminate to the negative charges .

    Relative permittivity is the factor by which the electric field between the
    charges is decreased relative to vacuum
    In electromagnetism, permittivity or absolute permittivity is the measure of
    resistance that is encountered when forming an electric field in a medium. In
    other words, permittivity is a measure of how an electric field affects, and is
    affected by, a dielectric medium. The permittivity of a medium describes how
    much electric field is 'generated' per unit charge in that medium. More electric
    flux exists in a medium with a low permittivity because of polarization effects.
    Permittivity is directly related to electric susceptibility, which is a measure of how
    easily a dielectric polarizes in response to an electric field. Thus, permittivity
    relates to a material's ability to resist an electric field

    r 
    0

    Dielectric Constant
    The dielectric constant or relative permittivity of a material
    determines its dielectric characteristics. It is the ratio of the
    permittivity of the medium and the permittivity of free space
    Various Polarization mechanisms
    Dielectric material is made up of atoms or molecules that possess one or
    more these types of electric polarization, Polarization come when centre
    of gravity of charges shifts and its overlapped for symmetrical materials
    and centre of gravity can be shifted when materials is deformed and .

    Four types of microscopic polarization mechanisms.


    Electronic polarization

    Ionic polarization

    Orientation polarization and

    Space-charge polarization.
    i. Electronic Polarization
     Electronic Polarization occurs due to the displacement of positively
    charged nucleus and negatively charged electrons in opposite directions,
    when an external electric field is applied, and thereby a dipole moment is
    created in the dielectric.

    The induced dipole moment µ = eE


    where e = electronic polarizability.
     Monoatomic gases exhibit this kind of polarization, Electronic
    polarizability is proportional to the volume of the atoms and is independent
    of temperature.
     The electronic polarizability = e = 4e0R3 ( Farad.m2) where R
    is the radius of the atom.
    Nucleus Displaced
    Nucleus Equilibrium
    position

    x
    Sphere of electronic +Ze -Ze Field direction
    charge
    Original Position

    Fig. (a) Position of +ve and –ve charges in an atom without field (b)
    Position of +ve and –ve charges in an atom with field

    Suppose that the electron cloud of charges -Zq is uniformly distributed in a


    sphere of radius R and that its center of gravity originally coincided with that of
    the nucleus, and suppose that it is displaced by the field to a distance d from the
    center of the nucleus, This displacement of the electrons Dx, resulting from
    electronic polarization, always generates an elastic restoring force tending to
    bring the electrons back to their equilibrium position.
    The noble gas atoms, such as He, Ne, Ar, Kr, Xe, H, Li, Na, K, Rb, Single
    atoms in gases may be considered spherical in shape, but molecules, each
    comprising two or more atoms, are generally not spherical.

    The field strength produced by the nucleus charges and experienced by the
    electrons is Zq/4peoR2 is larger than 109 V/cm. This field strength is far larger
    than the applied field. This may be the reason why the induced dipole moment
    for electronic polarization is proportional to the applied field and independent of
    frequency, because the time required for this polarization to occur is of the
    order of 10-15 sec

    Temperature independent intermolecular phenomenon since to make it shift


    again the nuclear force an equal and but in opposite direction force has to be
    applied
    ii. Ionic Polarization
    Ionic polarization arises due to the displacement of -ve ions
    and + ve ions in opposite directions and it occurs in ionic
    solids, in the presence of electric field.
    The displacement is independent of temperature. Example :
    NaCl crystal

    - + - +

    Cl Na x2 x1

    Fig. (a) Without field (b) With field


    Each Na+ - Cl– pair is a natural dipole, no matter
    how you pair up two atoms. The polarization of a
    given volume, however, is exactly zero because for
    every dipole moment there is a neighboring one with
    exactly the same magnitude, but opposite sign.Note
    that the dipoles can not rotate; their direction is
    fixed.

    In an electric field, the ions feel forces in


    opposite directions.
     For a field acting as shown, the lattice distorts
    a little bit
     Na+ ions moved a bit to the right, the Cl– ions
    to the left.
    The dipole moments between adjacent NaCl -
    pairs in field direction are now different and there
    is a net dipole moment in a finite volume now
    dielectric material consisting of polyatomic molecules usually has electronic polarization and ionic
    polarization, and in some cases, also orientational polarization when it is subjected to an electric
    field. In general, there are two groups of ionic solids. One group does not possess permanent
    dipoles, such as NaCl, which forms a simple cubic lattice so that the lattice symmetry and the
    overall charge neutrality ensure that electric dipoles formed by each ion pair everywhere cancel
    each other. The other group possesses permanent dipoles, because the crystal lattice in this case
    is less symmetrical, as with HCl

    The time required for electronic polarization is about 10-15 sec, and that required for the ionic
    polarization is about 10-13 sec, simply because ions are heavier than electrons by more than 103
    times. This is why the resonances for these two polarizations occur in different frequency
    iii. Orientation Polarization
    The orientation polarization arises due to the presence of polar
    molecule in the dielectric medium.

    Fig. (a) Without field (b) With field


    Explanation:
     In the case of a CH3Cl molecule, the positive and negative
    charges do not coincide. The Cl- has more electro negativity than
    hydrogen. Therefore, the chlorine atoms pull the bonded electrons
    towards them more strongly than hydrogen atoms. Therefore, even in the
    absence of field, there exists a net dipole moment.
     Now, when the field is applied, positive portion align along the
    direction of field and negative portion align in the opposite direction of the
    field. This kind of polarization is called as orientation polarization.
     This depends on temperature; when temperature is increased,
    the thermal energy tends to randomize the alignment orientation of a
    molecule involves the energy required to overcome the resistance of the
    surrounding molecules, so the orientation process
    is strongly temperature dependent.
    Explanation
     Without the application of external field, the ions are orderly
    arranged as shown in the
    Fig.
     Now, when the field is applied, the ions diffuse with respect to
    the direction of applied field. Thus the polarization occurs, known as
    space charge polarization.
     Normally, this type of polarization occurs in ferrites and
    semiconductors and will be very small.
    Which polarization is slower and why???
    It was seen that in some materials dielectric constant are some tow orders of larger
    magnitude than the normal dielectric Barium titnate has di cons of 2000 than normal
    dieletric it was due to the ferroelectricity in them

    The term ferroelectrics arose by analogy with ferromagnetic, mainly because they
    have similar characteristics: under electric fields for ferroelectric phenomena and under
    magnetic fields for ferromagnetic phenomena

    Like ferromagnetics, ferroelectrics exhibit a spontaneous electric polarization below the


    Curie temperature,
    Occurs in non-centro-symterial molecules

    In general, all materials undergo a small change in dimension when subjected to an


    external force, such as an applied electric field, a mechanical stress, or a change in
    temperature. This implies that non -centrosymmetric crystals are nonpolar and thus do
    not possess a finite polarization or dipole moment.

    Depending on the material structure, such a small change in dimension may result
    in a change in electric polarization and hence give rise to the occurrence of the
    ferroelectric, This implies that centrosymmetric crystals are nonpolar and thus do not
    possess a finite polarization or dipole moment. In such cubic systems centre of gravity of
    positive charge coincide with negative charges and centered of gravity shifts as system

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