introduction to x-ray magnetic scattering m....
TRANSCRIPT
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Introduction to X-ray Magnetic Scattering
M. Altarelli
1. Why magnetic x-ray scattering? How?
2. Non-Resonant and Resonant Scattering
3. Examples with Hard and Soft X-rays
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MnF2MnO
Cr RareEarths
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Determination of Magnetic Structures
NEUTRON SCATTERING is the standard probe forstructure determination
X-RAY SCATTERING useful in special cases:
Small samples
High momentum space resolution (periods ofincommensurate structures)
ORBITAL-SPIN separation (non-resonant)
Presence of more than one magnetic element (resonant)
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Consider a system of electrons moving in the field ofthe nuclei, VN(ri) and interacting with one another via aCoulomb potential Vc(|ri-rj|), described by the Hamiltonian:
H^
=
r p 2i
2mji
! + VN (r r i) + Vc(|
r r i "
r r j |) + (eh / 2m
2c2)r s i #(
r E (
r r i ) $
r p i)
The last term is the Spin-Orbit interaction.Simplify this many-body Hamiltonian by somehow makingan average potential for each electron:
H^
=
r p i2
2mi
! + V(r r i ) + (eh / 2m
2c2)r s i " (
r E (
r r i) #
r p i )
Remember that every electron carries a spin 1/2 and amagnetic moment:
r µ
i= (eh/ mc)
r s
i
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General recipe (from classical physics) to introduce interaction of electrons with field A(r,t):p => p-(e/c)A.Also: do not forget interaction of magnetic moment m with magnetic field of radiation:
ˆ H = [(r p i ! (e / c)
r A (
r r i ))
2
2mi=1,N
" + V(r r i) ! (eh / mc)
r s i #
r B !
(eh / 2m2c
2)r s i # (
r E $(
r p i ! (e / c)
r A (
r r i))]
Kinetic Energy
Spin-Orbit
µ.B
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We already encountered H1 and H2 . There are two newterms, H3 and H4, that are related to the electron spin
Elastic Scattering Processes
Electronic
ground state
This photon present
in the initial state
This photon present
in the final state
e, k e’,k’
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We saw in a previous lecture how H1 givesorigin to Thompson scattering. Including thethree other pieces gives additional terms thatcan be derived in detail.
Before describing them we must discuss thedifference between non-resonant andresonant scattering.
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EF
E
hω1
hω2
Non-resonant: h! >> h!
1,h!
2
Resonant:
h! " h!1
OR
h! " h!2
A
B
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In the non-resonant case (h! >> h!
1,h!
2)
all of the 4 terms contribute
In the resonant case (h! " h!1 or h! " h!
2)
the term H2 = (e/mc) ΣA(ri).pi dominates all others
A
B
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The quantity that best describes the intensity of the elasticscattering is the differential cross section:
d!
dO'=
Number of photons per unit time scattered within dO’Number of incident photons per unit time per unit surface
R dS
dO’=dS/R2
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A Non-resonant scattering
k, el k’, e’l ’
d!
dO'= (
e2
mc2)
2 "
#0 | eir q "
r r j | 0$(
r e ' * % & "
r e & ) ' i
h( r k
mc2 [
mc
eh#0 | ˆ q )[
r M L (
r q ) ) ˆ q ] | 0$ "
r P L +
mc
eh#0 |
r M S (
r q ) | 0$ "
r P S
j
*2
2θ
k
k’q
Thompson
(charge scattering)
Smallfactor!
F.T. of orbital
moment densityF.T. of spinmoment density
900 dephasing
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A Non-resonant scattering
Definitions:
ˆ q =
r q
q
r M L(
r q ) =
i
! eir q "
r r i
r M L(
r r i)
r M S (
r q ) =
i
! eir q "
r r ir s i
r P
L= (
r e ' * ! " # e" )4sin
2$
r P
S= [(
r ! k "
r ! e * ! # )(
r ! k $
r e # ) % (
r k "
r e #)(
r k $
r ! e * ! # ) % (
r ! k "
r ! e * ! # ) " (
r k "
r e #)]
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A Non-resonant scattering
1. Is very weak compared to Thompson scattering
(h!
mc2 )2" (10keV
511keV)2"
1
2500
Nmag < Z
2. Has a very different polarization factor for orbital MLand spin MS components of the magnetic moment.Therefore selecting the incoming photon polarization andanalyzing the outgoing photon polarization one can seeeither “orbital” or “spin” scattering
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Analysis of polarization by 900 scattering on a “poor” crystal
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Observation of Magnetic X-ray Scattering
Ferromagnet : magnetic periodicity=lattice periodicity
Same reciprocal lattice vectors
Antiferromagnet : magnetic periodicity= multiple of lattice periodicity
Additional magnetic reciprocal lattice vectors
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De Bergevin & Brunel, Phys. Lett. A39, 141 (1972) Laboratory x-ray tube
NiO (3/2; 3/2; 3/2) reflection, counts /225 minutes
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ESRF ID20 Beamline (counts/s)
V. Fernandez et al., Phys Rev. B57, 7870 (1998)
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V. Fernandez et al.,
Phys Rev. B57, 7870 (1998)
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y
x
zk
k'
q
Fig. 6 Sketch of a basal-plane spiral antiferromagnet, and the scattering geometry
Arrangement of Moments in Holmium
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Synchrotron X-rays have excellent angular resolution!
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EF
B Resonant (Anomalous) Scattering
hω, kinhω, kout
Energy is conserved in thetotal process, not in theindividual (virtual)transitions!
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B Resonant scattering
fres !0 ˆ " * #
r p ei
r
k #r r n n $ ˆ " #
r p e%i $
r
k #r r
0
En % E0% h& + i'n / 2n
(
d!
dO'= fres
2Differentialcross section
Scattering amplitude
Multipole expansion: e
ir k !
r r "1 + i
r k !
r r + .....
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EF
hω, kinhω, kout
2p
} s,p,d,f levels
Dipole: 2p --> s, d
Quadrupole: 2p --> f
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D. Gibbs et al.,
Phys. Rev. Lett. 61, 1241(1988)
Holmium, L3 (2p3/2 edge)
Polarization:Parallel to scatt. Plane
Perpendicular to scatt. plane
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B Resonant Magnetic Scattering
1. Is very intense (102-104 times more than
non-resonant)
2. Is element specific (via the core level
binding energy)
3. Its intensity is less directly related to
magnetic moments
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Hannon-Trammel formula for dipole-dipole scattering
Definitions:
r R ! (X,Y ,Z ) =
r r j
j
"
R0= iZ, R±1 = m(i / 2)(X ± iY)
ˆ z
fres = !e
2
mc2[1
2(r " e *
" # $r e #)(F
1,1
(e ) + F1,!1
(e ))
!i
2(r " e * " # %
r e # ) $ ˆ z (F
1,1
(e )! F
1,!1
(e ))
+(r " e *
" # $ˆ z )(r e # $ ˆ z )(F(e)
1,0 ! F1,1
(e ) ! F1, !1
(e) )
Unit vector in z direction
Hannon et al., Phys. Rev. Lett. 61, 1245 (1988)
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Soft X-ray Magnetic scattering:structures with long periods.
Artificial structures (multilayers)
Complex compounds with largestructural and/or magnetic unit cells
L2,3 edges of 3d transition metals
2p --> 3d
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H Dürr et al., [Co(1 nm) Cu(1nm)]50 multilayer, Co L3-edge (~778 eV)
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