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Point contact spectroscopy Point contact spectroscopy Point contact spectroscopy Point contact spectroscopy
�Ballistic point contact Ballistic point contact Ballistic point contact Ballistic point contact �PointPointPointPoint----contact spectroscopy of electroncontact spectroscopy of electroncontact spectroscopy of electroncontact spectroscopy of electron----phonon interaction phonon interaction phonon interaction phonon interaction �PointPointPointPoint----contact spectroscopy of electroncontact spectroscopy of electroncontact spectroscopy of electroncontact spectroscopy of electron----boson interaction boson interaction boson interaction boson interaction �Point Point Point Point ––––contact Andreev reflection spectroscopy of superconducting contact Andreev reflection spectroscopy of superconducting contact Andreev reflection spectroscopy of superconducting contact Andreev reflection spectroscopy of superconducting energy gap energy gap energy gap energy gap
----BTK model for arbitrary barrier and sBTK model for arbitrary barrier and sBTK model for arbitrary barrier and sBTK model for arbitrary barrier and s----wave superconductivitywave superconductivitywave superconductivitywave superconductivity----Tanaka extension of BTK to anisotropic order parametersTanaka extension of BTK to anisotropic order parametersTanaka extension of BTK to anisotropic order parametersTanaka extension of BTK to anisotropic order parameters----MultigapMultigapMultigapMultigap superconductivity, MgBsuperconductivity, MgBsuperconductivity, MgBsuperconductivity, MgB2222 & & & & pnictidespnictidespnictidespnictides----Spin polarized Andreev reflection spectroscopySpin polarized Andreev reflection spectroscopySpin polarized Andreev reflection spectroscopySpin polarized Andreev reflection spectroscopy
�Andreev reflection versus tunnelingAndreev reflection versus tunnelingAndreev reflection versus tunnelingAndreev reflection versus tunneling
Peter SamuelyPeter SamuelyPeter SamuelyPeter Samuely****
* In * In * In * In collaborationcollaborationcollaborationcollaboration withwithwithwith P. P. P. P. SzabóSzabóSzabóSzabó, J. , J. , J. , J. KaKaKaKačmarmarmarmarčíkíkíkík, Z. , Z. , Z. , Z. PribulováPribulováPribulováPribulová
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V
kF,, EF
+V/2
-V/2
• bulk sample, characteristic size >> electron mean free path llll
• applied voltage => gradient of VVVV across whole sample
• electrons accelerated by fraction of eVeVeVeV• increasing VVVV => Joule heating of the sample over the ‘bath’ temperature
-V/2 +V/2
Bulk conductor in electric field
eV
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V
EF
+V/2
-V/2
eV
• standard electrical contact between two wires with contact diameter d d d d >> l l l l , electron mean free path =>> RM = ρρρρ/d (Maxwell)
• let the orifice diameter dddd << llll => point contact (~ 10-100 nm) made e.g. by tip pressed on a bulk sample (Sharvin, Sov.Phys. JETP, 1965)
• applied voltage =>gradient of el. field only in area close to PC
• Fermi surface splits into two parts – energy separation between any two states of electrons at Fermi surface is equal to eVeVeVeV or zero
-V/2 +V/2
Ballistic point contactBallistic point contactBallistic point contactBallistic point contact
Electron accelerated by applied voltage V to drift velocity ∆v = eV/pF , pF – Fermi momentum
Current I=π(d/2)2ne∆v & from Drude model ρle = pF / ne2
=> Sharvin resistance
20
210
2222
)(
2/
)()(
2.
3
16
dkGG
heGR
dk
R
dke
h
d
lR
FS
Q
F
Q
Fs
=
==
=≈=
−
ρπ
Q. conductance x No. of q. channelsNo = (kF ~ π/a)2d 2
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Different regimes of electron motion through point contact
Ratio between point contact radius a and electron mean free path lwhere le – elastic mean free pathdue to changing momentum but unchanged energy
l i – inelastic mean free path where electron can change both energy and momentum
If point contact diameter d ~ de Broglie wave length of electron λ λ λ λ (0.1 – 0.2 nm)⇒1. quantum regime
with point-contact conductance dI/dV being a sum of several conducting channels each with quantum conductance G0 = 2e2/h
l i, le>> a >> a>>le l i, le << a eill
2. ballistic regime 3. diffusive regime 4. thermal regime
STM experiment
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Excess energy of electrons controlled by applied voltage like in tunnel junctions
with the voltage drop on insulating barrier
Excess energy lost by generating phonons=>
backscatterring of electrons at orifice (Umklapp processes)via generating of phonons
=> enhance slightly PC resistance at the characteristic phonon energy E=eV
Born by I.K. Yanson, ZhETP 1974
PPPPoint contactoint contactoint contactoint contact spectroscopy spectroscopy spectroscopy spectroscopy of electronof electronof electronof electron----phonon interactionphonon interactionphonon interactionphonon interaction
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Point contact spectroscopy of electron-phonon interaction
Strictly, Sharvin resistance is independent on resistivity and on energy since: ρρρρl = const.But for the contacts with finite ratio l/a point-contact resistance RPC have a little correction Γ <1 coming from Maxwell resistance RM:
)16
31()
16
31(
.
3
162 τ
ππρρπ F
SSe
PC v
dR
l
dR
dd
lR Γ+=Γ+=Γ+=
)/1exp( λω −∝cTP. Samuely, 1986
)()(2
)(0
21 εεαπτ Fh
eVeV
phel ∫=−−
αααα2F(ε) (ε) (ε) (ε) is important characteristics:
)()()(/)( 222 εεα FgVdIVdVdVdR
PCPCPC =≈≈
∫= εε
εεαλ dF )()(2
Point-contact spectra of LaB6
Theory by Kulik, Omelyanchuk, Shekhter, 1977:Iterative solution of Boltzmann eq., gPC differs from EliashbergEPI function by special form factor which prefers backscattering
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Different experimental realisations of point contacts
– Mechanically ControlableBreak junctions
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Measurement• dV/dI(V), d2V/dI2(V)• modulation technique• dc current I and small ac current i
...))2cos(1(4
1)cos()(...)(cos
2
1)cos()())cos(( 2
2
222
2
2
++++=+++=+ tidI
Vdti
dI
dVIVti
dI
Vdti
dI
dVIVtiIV ωωωωω
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Point contact spectroscopyEffect of temperature & modulation
[ ] 2/12211 )44.5())0(22.1(),( TkeVTkeV BB +=δ
A.G.M. Jansen, GrenobleI.K. Yanson, Charkiv
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Point contact spectroscopy .Point contact spectroscopy .Point contact spectroscopy .Point contact spectroscopy .Electron interaction with other scatterersElectron interaction with other scatterersElectron interaction with other scatterersElectron interaction with other scatterers
Conduction electrons scattered on crystal electric field levels splitted in magnetic field
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In superconducting state: Electrons (fermions) freeze out ⇒energy gap appears in electrons’ distribution
instead Cooper pairs (“bosons”) are createdenergy gap ~ binding energy of CP
Electrons are fermions satisfying Pauli exclusion principleMetal is a system with Fermi surface in momentum space
Superconductivity
is probability that CP state is occupied
is probability that CP state is empty
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Point contact AndreevPoint contact AndreevPoint contact AndreevPoint contact Andreev----reflection spectroscopy reflection spectroscopy reflection spectroscopy reflection spectroscopy of superconducting energy gapof superconducting energy gapof superconducting energy gapof superconducting energy gap
Consider BALLISTIC point contact between normal N and superconducting S electrodesInside superconducting energy gap, i.e. for voltage /V/ < ∆ / e transfer of quasiparticles is forbidden
??? N/S junction has worse conductance than N/N ???NO! Because of Andreev reflection process => excess current inside gap
Normal
Superconducting
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Electron-like qp
Hole-like qp
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arbitrary strong
At T => 0 σσσσNS =dI/dV= C [1 + A(E) - B(E)]
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Some improvements of BTK model
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Plecenik, PRB 1994 , BdG equations with inelastic scattering:
Finite qp lifetime leads tobroadening of spectra Γ∼ Γ∼ Γ∼ Γ∼ h/τ τ τ τ
Γ/∆ Γ/∆ Γ/∆ Γ/∆ should be small
Then, coherence factors are:
Density of states is smeared:
Treating broadened spectra
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2D/3D extension of BTK model
Electrons can approach PC at any angle θ θ θ θ Ν Ν Ν Ν with respect to the normal of PC interface
⇒ transparency or normal PC conductance is
⇒ directionality of PC depends on Z parameter
Tunnel junctions (Z >1)are more directional
In PC with Z = 0 all electrons within −−−−π/2 < π/2 < π/2 < π/2 < θ θ θ θ Ν Ν Ν Ν < π/2 < π/2 < π/2 < π/2 have unitary probability for transfer PC
22
2
+)cos(
)cos(K) (0
Zc
N
NNN θ
θσ =
∫
∫
−
−/2
/2
/2
/2
cos)(
cos),(=
)(:2D π
π
π
π
θθθσ
θθθσσ
σ
NNNNN
NNNNS
NN
NS
d
dEE
NS point-contact spectrum :
If gap is isotropic and Fermi surface spherical, 2 D=3D Daghero, Gonnelli, Arxive 2009
2D/3D affects only 2D/3D affects only 2D/3D affects only 2D/3D affects only Z Z Z Z parameterparameterparameterparameter
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∆∆∆∆: : : : Energy gapΓΓΓΓ: : : : Quasiparticle smearingΖΖΖΖ: Τ: Τ: Τ: Τunnel barrier strength
∆∆∆∆====1.35 meVΓΓΓΓ==== 0.23 meVΖΖΖΖ= = = = 0.62
∆∆∆∆==== 6 meVΓΓΓΓ==== 0.12 meVΖΖΖΖ= = = = 2
Some examples
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TanakaTanakaTanakaTanaka extensionextensionextensionextension ofofofof BTK to BTK to BTK to BTK to anisotropic energy gapanisotropic energy gapanisotropic energy gapanisotropic energy gapssss
E.g. in high-Tc cuprates order parameter has d-wave symmetry dx2-y2
Yukio Tanaka, PRL 1995, worked out BTK extension
* Size and sign of order parameterdepends on angle. of electron (θS) or hole (-θS) transmitted to superconductor* Cryst. a-axis is rotated at angleα with respect to PC X-axis* Electron and hole exeriences , resp.
NS point-contact spectrum for θ :where
Andreev refl. normal refl.
Total spectrum is
α is fixed
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α α α α = π/4 = π/4 = π/4 = π/4 Point contact with normal parallel to a-axis
α α α α = 0 = 0 = 0 = 0
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Order Parameter by Point-Contact Andreev Reflection Spectroscopy in HFS CeCoIn5 with Tc =2.6 K, W.K. Park, PRL 2008
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In case of two band / two gap superconductor PC conductance is sum of two BTK conductances with weights α and (1-α)
dI/dV(V) = αααασσσσπ π π π ++++(1(1(1(1−−−−αααα))))ΣΣΣΣσσσσ = = = = f(∆∆∆∆π π π π , ∆, ∆, ∆, ∆σ σ σ σ , Γ, Γ, Γ, Γπ π π π , Γ, Γ, Γ, Γσ σ σ σ , Ζ, Ζ, Ζ, Ζπ π π π , Ζ, Ζ, Ζ, Ζσ σ σ σ , α, α, α, α)))) but ΓΓΓΓπ π π π , Γ, Γ, Γ, Γσ σ σ σ => => => => 0000=>> two energy gaps
@ Szabo et al, PRL 2001
MultigapMultigapMultigapMultigap superconductivitysuperconductivitysuperconductivitysuperconductivity , MgB, MgB, MgB, MgB2222 & & & & pnictidespnictidespnictidespnictides
-20 -10 0 10 20
1.0
1.5
2.0N
orm
aliz
ed c
ondu
ctan
ce Experiment σ
π
BTK
σσ
BTK
0.7 σπ
BTK + 0.3 σσ
BTK
Voltage (mV)
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High Tc superconductivity in MgB2 @ 40 K
« Trick is two gaps », Mazinbased on H.Suhl, B.T. Matthias, and L.R. Walker, Phys. Rev. Lett. 3, 552 (1959)
cover Yildrim
� Akimitsu et al., Nature 410, 63 (2001)
� Significant isotop effect for boronphonon mediated interaction mechanism
kTc = ωD e−1/λ
1. High ωD due light element/boron
2. High λ: but this holds only for part of electrons
Anisotropic strong coupling of 2D σ electronsvia E2g phonons: λσσ is large
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How can two gaps help ?
)/1exp( effDckT λω −≈
2/])(4[ 2ππσσπσσπππσσ λλλλλλλ −+++=eff
λeff ~ max λii
E.g. λσσ=1 & λππ =λσπ =λπσ=0.1 =>> λeff~1
Mazin, 2001
In system with 2 groups of Cooper pairs (σ−band & π−band)with different coupling=> λ is a matrix2x2
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Point-contact spectra of MgB2, with two gaps
@ P. Szabo, P. Samuely, J. Kacmarcik et al., Phys. Rev. Lett. 87, 137005 (2001)
-20 -10 0 10 20
0,0
0,5
1,0
1,5
5
4
3
2
1
IPC
// c
IPC
// ab
T = 4.2 K
Nor
mal
ized
con
duct
ance
Voltage (mV)
I // c
I // ab
c T. Dahm
dI/dV(V) = αΣπ +(1−α)Σσ = f(∆π , ∆σ , Ζπ , Ζσ , α)=>> two energy gaps∆σ = 6.8 +/- 0.3 meV or 2∆σ /kTc ~ 4∆π = 2.7 +/- 0.1 meV or 2∆σ /kTc ~ 1.6α = 0.65 - 0.95 (Brinkmann, PRB 2002: α=0.65 for i||ab, α=0.99 for i||c)
Cu tip
Momentum space vs. real space .
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Two gaps, effect of temperature
-20 -10 0 10 20
1.0
1.1
1.2
1.3
1.4
1.5 Experiment: T = 4.2 K T = 10 K T = 20 K T = 25 K T = 30 K T = 35 K T = 38 K T = 40 K
BTK fit
Voltage (mV)
Nor
mal
ized
con
duct
ance
0 10 20 30 400
2
4
6
8 ∆(T) BCS theory∆
L(T)
∆S(T)
Ene
rgy
gap
(meV
)
Temperature (K)
Both gaps close at the same critical temperature
...but∆π pretends to close at lowerTc
π
Point contact spectrum
Electronic specific heat, Bouquet, 2001
Tcπ ∼ 13 Κ Tcπ ∼ 13 Κ
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Two gaps, effect of magnetic field
T13.0/;2 2
2
,220
,2 ≅∆∝=>∆∝Φ=F
cFc vBvB π
ππππ
π ξπξ
Small gap features gone at very low fields
But Bc2 determined by ∆2σ
-20 -10 0 10 20
1.0
1.1
1.2
1.3
1.4
Con
duct
ance
T = 4.2 K
Voltage (mV)
0 T 0.2 T 0.5 T 1T 3 T 9 T 12 T 20 T
Point contact spectrum Vortex imaging , Eskildsen, ‘01@ 50 mT & 2 K
ξ ab= 50 nm => Bc2 = 0.13 T
Βut real Bc2 ||c= 3T => ξab = 10 nm !!!ξ is extremely dependent on fieldAt low fields ξ = ξπ , at high fields ξ = ξσ
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Undoped iron pnictides are non superconducting
Undergo structural & magnetic transition(tetragonal => orthorhombic & paramagnetic => antiferromagnetic)
Under doping (electron or hole) or pressure => appears superconductivity
Structural & magnetic transition are partly suppressed in doped region
coexistence of AFM & SC or phase separation ?
Iron pnictides, new high-Tc ‘s
Ni Ni et al., PRB 2009
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-30 -20 -10 0 10 20 300.90
0.95
1.00
1.05
1.10
1.15
0 10 2002468
-50 -25 0 25 501.0
1.1
1.2
T = 4.4, 6, 8, 10, 12, 15, 17, 20, 22K
ab- plane
Nor
mal
ized
con
duct
ance
Voltage (mV)
∆ (
meV
)
27 K
T = 4.4 K
Two s-wave gaps2∆s /kTc ~ 2.72∆s /kTc ~ 9
@ P. Szabo, Z. Pribulová, G. Pristaš, P. Samuely, Phys. Rev. B. 79 (2009), 012503
PCAR on single xtals of (Ba 0.55K0.45)Fe2As2
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ARPES mesurements on FS’s & s/c order parameters
H. Ding, Europhys. Lett (2008)Three FS sheetson (Ba,K)Fe2As2 with Tc = 37 K inner αand outer β hole FS pocket around Γ& small γ electron-like FS at M-point
laterK. Nakayama, Europhys. Lett (2009) found 4th δ electron pocket at M-point
Two nodeless gaps6 meV on outer hole FS pocket β& 12 meV on two small FS’s (hole α & electron γ)
& about the same on δ electron pocket
FS sheets with very strong coupling 2∆/kTc ~ 8connected by (π,0) SDW vector in parent comp.=>interband interaction between nested FS’s
Iron pnictides, 4 bands/2 gaps
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superconductivity is inducedbythe nesting-related antiferromagnetic
spin fluctuationsnearthe wave vectors connecting the
electron and hole pockets
“… first example ofmultigap superconductivity with a discontinuous sign changein order parameter between the bands, which is principally
different from the multi-band s-wave superconductivitydiscovered in MgB2.”
Theoretical proposal of Mazin et al.
Iron pnictides
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Spin polarized Andreev reflection spectroscopySpin polarized Andreev reflection spectroscopySpin polarized Andreev reflection spectroscopySpin polarized Andreev reflection spectroscopy
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Andreev reflection versus tunnelingAndreev reflection versus tunnelingAndreev reflection versus tunnelingAndreev reflection versus tunneling
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IN IN IN IN HTHTHTHTcccc CUPRATES PSEUDOGAP EXISTS ABOVE CUPRATES PSEUDOGAP EXISTS ABOVE CUPRATES PSEUDOGAP EXISTS ABOVE CUPRATES PSEUDOGAP EXISTS ABOVE TTTTcccc
G. Deutscher, Nature 1999
G. Deutscher, Nature 1999: „Tunneling scans SC DOS gap as a single-particle excitation energy—the energy (per particle) required to split the paired charge-carriers that are required for superconductivity“
„Andreev reflection experiments reflect coherence energy range of the superconducting state—the macroscopic quantum condensate of the paired charges“.
PCAR spectra in contrast to tunneling do not show pseudogapbut only SC gap below Tc, smaller than pseudogap in underdoped regime
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ConclusionsConclusionsConclusionsConclusions
Point contact spectroscopy has been effective tool to study
� various interactions of conduction electrons with otherquasiparticles as phonons, magnons, magnetic excitations ,CEF levels, etc.
� superconducting order parameter (size, symmetry, etc.)
� spin polarization in metals, semimetals
� quantum transport
� ....
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1. Yu.G. Naidyuk, I.K. Yanson: Point contact spectroscopy, Springer, 2003.2. E.L. Wolf: Principles of electron tunneling spectroscopy, Exford
university press, 1989.3. G.E. Blonder, M. Tinkham, T.M. Klapwijk: Transition from metallicto
tunneling regimes in superconducting microconstrictions, Physical Review B 25, 4515 (1982).
4. Y. Tanaka and Satoshi Kishiwaya: Theory of tunnelling spectroscopy in d-wave superconductors, Physical Review Letters 74, 3451 (1995).
5. D. Daghero and R.S. Gonnelli, Probing multiband superconductivity by point-contact spectroscopy, Arxive 0912.4858.
Recommended references
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Ďakujem za pozornos ť