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The Meissner Effect

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End result is the exclusion of magnetic field from the interior of a superconductor. ... Would a magnet levitate over the surface of a perfect conductor? ... – PowerPoint PPT presentation

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Title: The Meissner Effect


1
The Meissner Effect
  • An unintuitive property of supercondctors

2
Outline
  • What is the Meissner Effect?
  • Superconductors as diamagnets.
  • Meissner effect in perfect conductors?
  • Meissner effect in superconductors.

3
The Meissner Effect
  • A diamagnetic property exhibited by
    superconductors.
  • End result is the exclusion of magnetic field
    from the interior of a superconductor.
  • What is diamagnetism?

4
Diamagnetism?
  • A superconductor is not only a perfect conductor
    (R0), but a perfect diamagnet.
  • It will tend to repel a magnet.

5
So, Superconductors are Perfect Diamagnets?
  • If a superconductor was only a perfect conductor,
    would there be a Meissner Effect?
  • Recall Faradays Law of Induction.

6
Faradays Law of Induction
7
Faradays Law of Induction
  • A change in magnetic flux will induce an emf in a
    conductor.
  • There will be no induced emf if the magnetic flux
    is constant with respect to time.

8
The Minus Sign
  • What does the minus sign imply physically?
  • The direction of the induced emf will be such
    that the magnetic field produced by the induced
    emf resists the change in magnetic flux.
  • The presence of the minus sign is referred to as
    Lenzs Law

9
Lenzs Law
  • If the magnetic flux is decreasing out of the
    page, which way will the induced emf be directed?
    (Note the induced emf has the same direction as
    the induced current.)

10
  • The direction of the induced emf (or current),
    will be counterclockwise.
  • This will generate an induced magnetic field out
    of the page, counteracting the decrease in flux.
    (Found from the right-hand rule for current
    carrying wires.)

11
Perfect Conductor
  • Move this perfect conductor into a magnetic
    field.
  • By Faradays Law of Induction, a current is
    induced.
  • The magnetic field generated by this current
    would oppose the change of the applied field.

12
  • How long will the induced current flow? Recall P
    I2R.
  • The induced current would flow indefinitely.
    There is no I2R power loss. The induced magnetic
    field will continue to oppose the change in the
    applied field.
  • Conversely, if the conductor is in a magnetic
    field which is then removed, an induced current
    and corresponding magnetic field would tend to
    oppose the removal of the applied field.

13
What Do We See?
  • Would a magnet levitate over the surface of a
    perfect conductor?
  • No, if a magnet is placed on top of a material
    which becomes a perfect conductor, there would be
    no effect on the magnet.
  • There would only be an opposing force if the
    magnet was removed.

14
In Superconductors
  • Faradays Law does not explain magnetic repulsion
    by superconductors.
  • Below its critical temperature (Tc) a
    superconductor does not allow any magnetic field
    to enter it.

15
  • Circulating currents on the surface of the
    superconductor induce microscopic magnetic
    dipoles that oppose the applied field.
  • The induced field repels the applied field, and
    the magnet associated with it.
  • If a magnet is on top of a superconductor as it
    is cooled below its Tc, it would exclude the
    magnetic field of the magnet.

16
The Result
17
References
  • Image 1 http//www.physics.ubc.ca/outreach/p420_
    97/bruce/ybco.html
  • Image 2 http//www.sci.kun.nl/hfml/froglev.html
  • Image 3 http//physicsweb.org/article/world/11/12
    /6
  • Image 4 http//www.phys.warwick.ac.uk/supermag/Re
    search/Superconductors/body_superconductors.html
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