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Special Topics in Electrodynamics:

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Presentation on theme: "Special Topics in Electrodynamics:"— Presentation transcript:

1 Special Topics in Electrodynamics:
PHY 712 Electrodynamics 9-9:50 AM MWF Olin 105 Plan for Lecture 36: Special Topics in Electrodynamics: Electromagnetic aspects of superconductivity London equations Brief mention of quantum mechanism Tunneling between two superconductors 04/18/2018 PHY 712 Spring Lecture 36

2 04/18/2018 PHY 712 Spring Lecture 36

3 04/18/2018 PHY 712 Spring Lecture 36

4 Special topic: Electromagnetic properties of superconductors
Ref:D. Teplitz, editor, Electromagnetism – paths to research, Plenum Press (1982); Chapter 1 written by Brian Schwartz and Sonia Frota-Pessoa History: 1908 H. Kamerlingh Onnes successfully liquified He H. Kamerlingh Onnes discovered that Hg at 4.2 K has vanishing resistance 1957 Theory of superconductivity by Bardeen, Cooper, and Schrieffer 04/18/2018 PHY 712 Spring Lecture 36

5 Behavior of superconducting material – exclusion of magnetic field according to the London model
lL x 04/18/2018 PHY 712 Spring Lecture 36

6 Behavior of magnetic field lines near superconductor
normal state: superconducting state: 04/18/2018 PHY 712 Spring Lecture 36

7 04/18/2018 PHY 712 Spring Lecture 36

8 characteristic phonon energy
density of electron states at EF attraction potential between electron pairs 04/18/2018 PHY 712 Spring Lecture 36

9 Temperature dependence of critical field
From PR 108, 1175 (1957) Bardeen, Cooper, and Schrieffer, “Theory of Superconductivity” characteristic phonon energy density of electron states at EF attraction potential between electron pairs 04/18/2018 PHY 712 Spring Lecture 36

10 Type I superconductors:
04/18/2018 PHY 712 Spring Lecture 36

11 Type II superconductors
04/18/2018 PHY 712 Spring Lecture 36

12 Quantization of current flux associated with the superconducting state (Ref: Ashcroft and Mermin, Solid State Physics) 04/18/2018 PHY 712 Spring Lecture 36

13 Such “vortex” fields can exist within type II superconductors.
Quantization of current flux associated with the superconducting state -- continued Suppose a superconducting material has a cylindrical void. Evaluate the integral of the current in a closed path within the superconductor containing the void. dl Such “vortex” fields can exist within type II superconductors. 04/18/2018 PHY 712 Spring Lecture 36

14 04/18/2018 PHY 712 Spring Lecture 36

15 Crystal structure of one of the high temperature superconductors
04/18/2018 PHY 712 Spring Lecture 36

16 Some details of single vortex in type II superconductor
04/18/2018 PHY 712 Spring Lecture 36

17 Scanning probe images of vortices in YBCO at 22 K
04/18/2018 PHY 712 Spring Lecture 36

18 Mechanism for vortex detection --
Josephson junction -- tunneling current between two superconductors (Ref. Teplitz, Electromagnetism (1982)) d x Bz 04/18/2018 PHY 712 Spring Lecture 36

19 Josephson junction -- continued
Supercon left Junction Supercon right Bz d 04/18/2018 PHY 712 Spring Lecture 36

20 Josephson junction -- continued
Supercon left Junction Supercon right Ay d 04/18/2018 PHY 712 Spring Lecture 36

21 Josephson junction -- continued d
L R x Coupling parameter 04/18/2018 PHY 712 Spring Lecture 36

22 Josephson junction -- continued
04/18/2018 PHY 712 Spring Lecture 36

23 Josephson junction -- continued
JL JR JT L R x 04/18/2018 PHY 712 Spring Lecture 36

24 Josephson junction -- continued JL JR
JT L R x 04/18/2018 PHY 712 Spring Lecture 36

25 Josephson junction -- continued
JL JR JT L R x 04/18/2018 PHY 712 Spring Lecture 36

26 Josephson junction -- continued
Supercon left Junction Supercon right Ay d 04/18/2018 PHY 712 Spring Lecture 36

27 Josephson junction -- continued
JL JR JT L R x Bz 04/18/2018 PHY 712 Spring Lecture 36

28 Josephson junction -- continued
JL JR JT L R w w x 04/18/2018 PHY 712 Spring Lecture 36

29 Josephson junction -- continued
JL JR JT L R w w x 04/18/2018 PHY 712 Spring Lecture 36

30 Josephson junction -- continued d JL JR
JT L R w w x Bz 04/18/2018 PHY 712 Spring Lecture 36

31 Josephson junction -- continued
SQUID =superconducting quantum interference device IT F/F0 Note: This very sensitive “SQUID” technology has been used in scanning probe techniques. See for example, J. R. Kirtley, Rep. Prog. Physics 73, (2010). 04/18/2018 PHY 712 Spring Lecture 36

32 Scanning SQIUD microscopy
Ref. J. R. Kirtley, Rep. Prog. Phys (2010) 04/18/2018 PHY 712 Spring Lecture 36

33 04/18/2018 PHY 712 Spring Lecture 36

34 pg. 481 04/18/2018 PHY 712 Spring Lecture 36

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