1. First and Second London Equations 2. Examplesweb.mit.edu/6.763/www/FT03/Lectures/Lecture5.pdf1....
Transcript of 1. First and Second London Equations 2. Examplesweb.mit.edu/6.763/www/FT03/Lectures/Lecture5.pdf1....
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Lecture 5: Classical Model of a Superconductor
Outline1. First and Second London Equations2. Examples
• Superconducting Slab• Bulk Sphere
3. Non-simply connected superconductors• Hollow cylinder• Superconducting circuits
o DC flux transformero Superconducting memory loopo Magnetic monopole detector
4. Two Fluid Model
September 18, 2003
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Superconductor: Classical Model
first London Equation
second London Equation
penetration depth
When combined with Maxwell’s equation in the MQS limit
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Superconducting Infinite SlabLet
Therefore,
and2a
x
Boundary Conditions demand
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Fields and Currents for |y|< a
Thin film limit
λ λ
Bulk limit
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Superconducting Sphere: Bulk Approximation R >> λ
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Current along a cylinder: bulk superconductor
The fields from Ampere’s law
Inside:
Outside:
Therefore,
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Field along a cylinder: bulk superconductor
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Field along a hollow cylinder
Solution 1
or
Solution 2
?
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Multiply Connected Superconductor
First London
Maxwell
Therefore
and
For a contour within the bulk where J = 0, flux remains constant
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Field along a hollow cylinder
Zero Field Initially Solution
Finite Field
Initially Solution
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Flux trapped in a hollow cylinder
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Superconducting Circuits
A generalization to any closed superconducting circuit is that the total flux linkage in a circuit remains constant.
Then if a circuit has N elements that can contain flux,
Sources of Flux linkage
Self-inductance Mutual inductance External flux
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
DC Flux Transformer
If the B field is measured of the transported flux
B can be amplifiedFlux can be transported
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Superconducting Memory
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
0 to 1 Storage
0
1
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Magnetic Monopole DetectorMaxwell’s Equations with Monopole density ρm
The signs insure electric and magnetic charge conservation.
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Magnetic Monopole Detector
Take the line integral
Total of Flux and magnetic charge is conserved.
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Inductance measurement
From the measurement of the inductance, the penetration depth can determined.
I
RFor a normal metal
And
For a superconductor,
and
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Experiment
The penetration depth λ is temperature dependent !
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Temperature dependent λ
A good guess to let depend on temperature for T< Tc
n n(T)n/ntot
T
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Two Fluid Model for ωτtr<<1, T< Tc
Jtot = Js(T) + Jn(T)
Λ(T) 1/σ0(T)
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Two Fluid ModelConstitutive relations for two fluid model
Maxwell
Gives
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Massachusetts Institute of Technology 6.763 2003 Lecture 5
Complex wavenumberFor a sinusoidal drive,
2a
x
For a slab in a uniform field
The smaller length determines the length scale