superconductivity - an overview of science and technology
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Superconductivity - An overview of science and technology. Prof Damian P. Hampshire Durham University, UK. Structure of the Talk. I)The fundamental building blocks (G-L) Ginzburg-Landau and (B-C-S) Bardeen-Cooper-Schrieffer theories The Josephson effect - PowerPoint PPT PresentationTRANSCRIPT
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Superconductivity- An overview of science and technology
Prof Damian P. Hampshire
Durham University, UK
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Structure of the Talk
I) The fundamental building blocks - (G-L) Ginzburg-Landau and (B-C-S) Bardeen-Cooper-
Schrieffer theoriesThe Josephson effect Critical current and pinning (zero resistance)
II) The important materials Classic LTS high field materials – NbTi and Nb3Sn
The high temperature superconductors - The pnictides (Superconductivity and magnetism)
III) Technology – MRI, LHC, ITER and beyond..
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ii) Microscopic BCS theory – describes why materials are superconducting
There are two main theories in superconductivity:
i) Ginzburg-Landau Theory – describes the properties of superconductors in magnetic fields
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Ginzburg-Landau Theory
Ginzburg and Landau (G-L) postulated a Helmholtz energy density for superconductors of the form:
where α and β are constants and ψ is the wavefunction. α is of the form α’(T-TC) which changes sign at TC
High magnetic fields penetrate superconductors in units of quantised flux (fluxons)!
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A fluxon has quantised magnetic flux - its structure is like a tornado
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The Mixed State in Nb
Vortex lattice in niobium – the triangular layout can clearly be seen. (The normal regions are preferentially decorated by ferromagnetic powder).
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Reversible Magnetic Properties of ‘Perfect’ Superconductors
Below Hc, Type I superconductors are in the Meissner state: current flows in a thin layer around the edge of the superconductor, and there is no magnetic flux in the bulk of the superconductor. (Hc : Thermodynamic Critical Field.)In Type II superconductors, between the lower critical field (Hc1), and the upper critical field (Hc2), magnetic flux – fluxons - penetrates into the sample, giving a “mixed” state.
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Josephson dc. SQUID
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Josephson diffraction
The voltage across a biased SQUID as a function of field
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10BCS Theory - the origin of superconductivity
Bardeen Cooper and Schrieffer derived two expressions that describe the mechanism that causes superconductivity,
where Tc is the critical temperature, Δ is a constant energy gap around the Fermi surface, N(0) is the density of states and V is the strength of the coupling.
12 exp0D N V
11.14 exp0B c Dk T
N V
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Model for a polycrystalline superconductor – with strong pinning
A collection of truncated octahedra
G. J. Carty and Damian P. Hampshire - Phys. Rev. B. 77 (2008) 172501 also published in Virtual journal of
applications of Superconductivity 15th May 2008
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-100
102030405060708090
100110
0 1 2 3 4 5 6 7
0 20 40 60 80 100 120
0
1.0
2.0
Initial ( = 0 %)After 1 strain cycleto = +0.455%
T = 4.2 K
Ec = 100 Vm-1
Ec = 10 Vm-1
12.5 T
13 T
13.5 T
14 T
14.5 T
15 T
Current Density, J (108 Am-2)
Ele
ctric
Fie
ld, E
(V
m-1
)
Vol
tage
, V (
V)
Current, I (A)
Critical current (Jc) measurements
4.2 K, variable B-field, Nb3Sn
77 K, zero field YBCO
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13Fluxons do not move smoothly through a polycrystalline superconductor
The motion of flux through the system takes place predominantly along the grain boundaries.TDGL movie 0.430Hc2 Psi2
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Structure of the Talk
I) The fundamental building blocks - (G-L) Ginzburg-Landau and (B-C-S) Bardeen-Cooper-
Schrieffer theoriesThe Josephson effect Critical current and pinning (zero resistance)
II) The important materials Classic LTS high field materials – NbTi and Nb3Sn
The high temperature superconductors - The pnictides (Superconductivity and magnetism)
III) Technology – MRI, LHC, ITER and beyond..
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NbTi multifilamentary wire – the workhorse for fields up to ~ 10 Tesla
Alloy - NbTi
Tc ~ 9 K BC2 ~ 14 TDuctile
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EM-LMI ITERInternal-tin Nb3Sn
Furukawa ITERBronze-route Nb3Sn
OST MJR Nb3Sn
Outokumpu Italy (OCSI)ITER Internal tin Nb3Sn
Nb3Sn superconducting wires- the workhorse for ITER
Intermetallic compound Nb3Sn
Tc ~ 18 K BC2 ~ 30 TBrittle
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-1.5 -1.0 -0.5 0.0 0.5105
106
107
108
109
Eng
inee
ring
Crit
ical
Cur
rent
Den
sity
(Am
-2)
0.1
1
10
100
1000
Temperature: 4.2 K
Crit
ical
Cur
rent
(A)
23 T
Magnetic Field: 8 T
Applied Strain (%)
Why is the effect of strain on JC
important ?The critical current density (JC) depends on the magnetic field, the temperature and the strain-state of the superconductor.
Superconducting magnets: large strains due to the differential thermal contraction during cool-down and the Lorentz-forces during high-field operation.
Nb3Sn Wire
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18HTS – BiSrCaCuO (BiSCCO)- Powder-in-tube fabrication- Granularity is an issue- d-wave
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HTS coated conductors- Kilometre long single crystals
Configuration of SuperPower 2G HTS Wire™
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20MgB2 - Brittle compound Tc ~ 40 K, BC2 (//c) ~ 20 T
A nodeless BCS-type gap !
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Conductors in the USA
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10
100
1000
10000
0 5 10 15 20 25 30 35 40 45
Applied Field (T)
JE (
A/m
m²)
YBCO Insert Tape (B|| Tape Plane)
YBCO Insert Tape (B Tape Plane)
MgB2 19Fil 24% Fill (HyperTech)
2212 OI-ST 28% Ceramic Filaments
NbTi LHC Production 38%SC (4.2 K)
Nb3Sn RRP Internal Sn (OI-ST)
Nb3Sn High Sn Bronze Cu:Non-Cu 0.3
YBCO B|| Tape Plane
YBCO BYBCO B Tape Plane Tape Plane
2212
RRP NbRRP Nb33SnSn
BronzeBronzeNbNb33SnSnMgB2
Nb-TiNb-TiSuperPower tape SuperPower tape used in record used in record breaking NHMFL breaking NHMFL insert coil 2007insert coil 2007
18+1 MgB18+1 MgB22/Nb/Cu/Monel /Nb/Cu/Monel Courtesy M. Tomsic, 2007Courtesy M. Tomsic, 2007
427 filament strand with Ag alloy outer sheath tested at NHMFL
Maximal JE for entire LHC Nb Ti strand production (CERN-T. Boutboul '07)
Complied from Complied from ASC'02 and ASC'02 and ICMC'03 papers ICMC'03 papers (J. Parrell OI-ST)(J. Parrell OI-ST)
4543 filament High Sn 4543 filament High Sn Bronze-16wt.%Sn-0.3wtBronze-16wt.%Sn-0.3wt
%Ti (Miyazaki-MT18-%Ti (Miyazaki-MT18-IEEE’04)IEEE’04)
Conductors in the USA
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HTS materials and exotic materials
Phase diagram for the ferromagnet UGe2
A schematic of a high-Tc phase diagram
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The Pnictide Superconductors – the iron age revisited
Iron Man : In cinemas now from Paramount Pictures and Marvel Entertainment
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The Pnictides - the original discovery
Layered structure
Original material:Tc 3-5 K 2006 LaOFeP
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26A big class of new materials (> 2000 compounds)
Re-O-TM-Pn.
Re = La+
TM =
Pn
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27Comparing HTS and pnictide structure
In both cases, the superconductivity is in metallic layers, there is a charge reservoir and they are antiferromagnetic in their undoped state.
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Tc of the iron-based system is quite high
Tc 3-5 K 2006 LaOFeP
Tc 26 K, LaOFFeAs. Jun. 2008
Tc 43 K with high pressure (4 GPa) LaOFeAs. Feb. 2008Possibly the 1st 40K-class LTS superconductor
Tc 55 K NdFeAsO1-d. April/May 2008.
(Also 111 phase and 122 phase)
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29Oxygen concentration is critical for superconductivity
• For the NdFeAsO1-d with different O concentration• A dome-shaped superconducting bubble has been found
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Tc ~ 42K
Point-contact spectroscopy
Page 1224
Sweep the V I - V
dI/dV - V
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A nodeless BCS-type gap !
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32Does Superconductivity coexist or compete with magnetism ?
This sharp drop about 150 K is due to a SDW – confirmed using neutron diffraction - P. C. Dai Nature (2008)
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33BC2 is high
Larbalestier et al measured the resistance of F doped LaOFeAs at high fields up to 45 T. Nature 453 903
H.H. Wen et al measured F doped NdOFeAs. Hc2 ~ 300 T in the ab plane and ~60-70T in c axis. Arxive:cond-mat/0806.0532
Two-gap model is qualitatively consistent with their data.
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High critical current in polycrystalline pnictides !
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Structure of the Talk
I) The fundamental building blocks - (G-L) Ginzburg-Landau and (B-C-S) Bardeen-Cooper-
Schrieffer theoriesThe Josephson effect Critical current and pinning (zero resistance)
II) The important materials Classic LTS high field materials – NbTi and Nb3Sn
The high temperature superconductors - The pnictides (Superconductivity and magnetism)
III) Technology – MRI, LHC, ITER and beyond..
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Applications using Superconductors
MRI Body scannersLHCITERTransportPower transmissionPublic outreach
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MRI - $1B annual market
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Large hadron collider – LHC ~ $ 6B
6000 superconducting magnets will accelerate proton beams in opposite directions around a 27 km-long ring and smash them together at energies bordering on 14 TeV.
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Some facts about the LHCProtons are accelerated to 99.999999991% of the speed of light
The LHC lets us glimpse the conditions 1/100th of a billionth of a second after the Big Bang: a travel back in time by 13.7 billion years
High energy collisions create particles that haven’t existed in nature since the Big Bang
Find out what makes the Universe tick at the most fundamental level
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ITER – Building a star on planet earth
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Picture courtesy of the SOHO/EIT collaboration
Matter becomes a plasma
At 200 million ºC,
We need extreme conditions …
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ITER – A large transformer
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The fuel for ITER is from seawater
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16 Nb3Sn toroidal field coils - each coil is ~ 290 tonnes, has 1100 strands, ~ 0.8 mm diameter to form a conductor 820
m long.
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A burning plasma
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Fusion powers the Sun and stars and has many potential attractions
• Essentially limitless fuel
• No green house gases
• Major accidents impossible
• No long-lived radioactive waste
• Could be a reality in 30 years
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Applications using SuperconductorsTransport
In Jan 08, the Central Japan Railway Company (JR Central) announced that it plans to construct the world's fastest train, a second-generation maglev
train that will run from Tokyo to central Japan.
Cost ~ 44.7 billion dollarsCompletion in 2025
Speed ~ 500 kilometers per hourLength ~ 290 kilometers
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Applications using SuperconductorsSuperconducting power transmission- currently we waste ~ 20 % of our
energy just transporting it around- potentially the next industrial
revolution
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Conclusions
Superconductivity offers excellent science, excellent technology, excellent training and the possibility of saving the planet !!
Using world-class science to produce technology is tough. It requires first class scientists, time, perserverance, creativity, luck and funding.
The many uses for superconductivity means that many of the technological tools required to exploit new materials are in place. The new materials discovered in the last 20 years were found by relatively small determined groups.
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References + Acknowledgements
Acknowledgements: Xifeng Lu + colleagues in Beijing, Mark Raine, Georg Weiglein (IPPP, Durham), Eric Hellstrom (ASC Florida), Chris Carpenter (Culham) + many others …….
Bibliography/electronic version of all talks and publications are available at: http://www.dur.ac.uk/superconductivity.durham/