science with fels: inelastic scattering as a probe of elementary excitations in matter jerome...
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Science with FELs:Inelastic scattering as a probe of elementary
excitations in matter
Jerome Hastings
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Signal
Scattering angle
Energy/Momentum Conservation
Instrument function
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Energy – Momentum Relationship Photons, Electrons, Neutrons
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High Energy Density matter is interesting
• Hot Dense Matter (HDM) occurs in:• Supernova, stellar interiors,
accretion disks• Plasma devices: laser
produced plasmas, Z-pinches• Directly and indirectly driven
inertial fusion experiments
• Warm Dense Matter (WDM) occurs in:• Cores of large planets• Systems that start solid and
end as a plasma• X-ray driven inertial fusion
experiments
HED
WDM
Hydrogen phase diagram
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The High Energy Density Science space
Density (g/cc)10-4 10-2 0
Tem
pera
ture
(K)
102
106
1010 Relativistic Plasma
Radiative Plasma
Non-ideal Plasma
102 104
Degenerate and strongly coupled
Plasma
HED spacePressure > 1 Mbar
G = 0.1
G = 1
T e = E Fermi
Long Pulse Laser 10 J
Warm Dense Matter
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Elastic scattering
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the structure factor: a critically important quantity
10
• Pressure • Collisions
Excess ion pressure
Ion pressure
Total
Ideal gas pressure
Equation of State, Line broadening, Stopping Powers, Transport, Opacity,…
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X-rays visualize Matter in Extreme Conditions
11
Density,Temperature,Pressure
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X-rays visualize Matter in Extreme Conditions
12
Density,Temperature,Pressure
Let us first have a look at low temperature/pressure conditions
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X-rays visualize Matter in Extreme Conditions
13
Simulations of solid Aluminum
Bragg equation: nl = 2d sinq
• Orange: isosurface of the electronic density (delocalized electrons)
• Grey: 2nd isosurface (n=1,2 localized electrons)• Blue sphere: Al nuclei
Solid
Compressed Solid
Melting
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X-rays visualize Matter in Extreme Conditions
14
When Bragg peaks disappear a broad fluid peak
takes over – this feature contains information about the
structure of Warm Dense Matter
Melting
Warm Dense Matter
Warm Dense Matter
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Plasma theory does not agree with data
15
• Theory includes screening by free electron, but no short-range repulsion
Ideal Plasma Theory
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Warm Dense Matter State: new properties
16
DFT-MD simulations show warm dense matter
• Quantum simulations of Warm Dense Matter
• (delocalized conduction) are disturbed from the very regular structure in the lattice
• Properties of both• Hot dense gas or plasma• Solid
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Data indicate coexistence
17
DFT-MD simulations show co-existence regime
• Simulations show Bragg peak and broad fluid peak
• Plasma and compressed solid co-exist)Co-
existence
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Phonons
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Elementary excitations in solids
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David A. Reis
Stanford PULSE Institute,
Applied Physics and Photon Science
Stanford University and SLAC National Accelerator Laboratory
Time-domain Inelastic X-ray Scattering from Phonons
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P. Olmer, Acta Cryst. 1, 57 (1948)
LA
TA
Aluminum
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Inelastic X-ray Scattering:
M. Le Tacon et. al, Nat. Phys. 10,52 (2014)
Underdoped YBCO
ID28 ESRF
X-ray Diffuse Scattering:
2d
x-rays
M. Holt et al., PRL 83 (1999).
fit to Bose-Einsteindistribution.
Si
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GaAs
Sudden Softening
GaAs
Inducing temporal coherences on the noise
independent modes (oscillation at twice frequency):
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phonon-phonon interactions Electron-phonon interactions
Non-equillibrium populations Non-equillibrium frequency (forces)
Time and momentum-domain x-ray scattering:
X-ray
probe
pumpt
020
10
50 100 150 200 250 300 350 400 450 5000
0.5
1
1.5
2
2.5
3
3.5
4
-2.5
-2
-1.5
-1
-0.5
0
Ener
gy [m
eV]
Trigo et al. Nature Physics. 9, 790, 2013
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BZ edge BZ edge
Trigo, Zhu, et al. in preparation
extracted TA phonon dispersion (Ge) H
alf f
requ
ency
[TH
z]
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Liquids
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G. Ruocco, F. Sette, J. Phys. Cond. Matter 11, R259 (1999)
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G. Ruocco, F. Sette, J. Phys. Cond. Matter 11, R259 (1999)
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Cross-section &
dynamic structure factor:
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Free particle regime: impulse approximation
Microscopic regime relaxation processes invoked to account for the spectral shape and the broadening of the excitations
Macroscopic regime hydrodynamics
v=ħw/q
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Si(4,4,4): ΔE/E=5•10-6
Working conditions: Bragg angle @ ϑPM=87o EPM=7919.1 eVΔEPM~100 meV
Sensitive to the seed crystal angle at the level of 0.001o
Si(4,4,4) analyzer
CSPAD detector
Be lens
focusing mirror
Si(4,4,4) mono
sample
Seeded beam
Optical laser
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@ MEC: CSPAD (110 m pixel size) & diced Si(444) crystal with R=1 m & =87° ~100 meV @ 7919 eV
Huotari et al., J. Synchrotron Rad. 12, 425 (2006)
-~10.000 cubes of 0.7x0.7x2.3 mm3
- perfect crystal properties- collection of sufficient solid angle
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-200 -100 0 100 2000.0
0.2
0.4
0.6
0.8
1.0
Nor
mal
ized
inte
nsity
Energy ( meV )
FWHM=98 meV !
-400 -300 -200 -100 0 100 200 300 4000.0
0.2
0.4
0.6
0.8
1.0
Norm
aliz
ed in
tensi
ty
Energy ( meV )
Al @ ρ=7.00.9 g/cm3
=152 13 meV
2θ=30o, Q=2.1 Ǻ
-1
Q0=3.70.1 Ǻ-1
; Q/Q0=0.57
Elastic scatterer (SiO2)
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-300 -200 -100 0 100 200 300
0.2
0.4
0.6
0.8
1.0
1.2
Peak width gives viscosity
Norm
aliz
ed in
tensi
ty
Energy ( meV )
Peak position gives sound velocity
Fit results
viscosity:
σ ~ 5 mPa s
sound velocity:
v ~11 km s-1
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Liquids (Water)
Ion Acoustic Waves (WD Aluminum)
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Plasmons
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Hill, J. P., et al. "Inelastic X-ray scattering study of solid and liquid Li and Na." Physical review letters 77, 3665 (1996)
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The High Energy Density Science space
Density (g/cc)10-4 10-2 0
Tem
pera
ture
(K)
102
106
1010 Relativistic Plasma
Radiative Plasma
Non-ideal Plasma
102 104
Degenerate and strongly coupled
Plasma
HED spacePressure > 1 Mbar
G = 0.1
G = 1
T e = E Fermi
Long Pulse Laser 10 J
Warm Dense Matter
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Single-shot plasmons determine compression
Plasmon dampingdetermines conductivity
• Density, Temperature• Characterize laser shock-
compressed Al- Compressed solid,- Co-existence phase- Warm Dense Matter
• First Conductivity measurements with independent Te, ne data
• Solid Al at T = 6 eV
Inelastic x-ray scattering measures physical properties of warm dense matter
L. Fletcher et al. Nature Photonics 9, 274 – 279 (2015) D. Chapman et al. Nature Communications DOI: 10.1038/ncomms7839 (2015)
Pressure, P = 5 Mbar
Coupling Parameter G
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High resolution x-ray scattering observations ofplasmons in Al using the seeded beam at 8 keV
High resolution x-ray scattering observations ofplasmons in Al using the seeded beam at 8 keV
X-ray scattering from isochorically heated Al with seeded beam resolves plasmons
SASESeeded
Forward (plasmon) spectrometer
Backward (Compton) spectrometer
Plasmon
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First measurements of the dynamic structure factor along the Al isentrope
• Scientific Achievement• Demonstrated novel in situ
measurements of the electron temperature, pressure, and density in the warm dense regime
• Significance and Impact• Precision measurements of the
isentrope of Al• This is a new tool to test the
microphysical models and to determine the physics properties of matter in extreme conditions
(bottom) pressure vs, density data for compressed aluminium(top ) DFT-MD simulations of the structural evolution from solid-state aluminum to WDM transition (left-right)
http://www.nature.com/nphoton/journal/vaop/ncurrent/full/nphoton.2015.41.html
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Detailed balance
Is the dynamic structure factor of the free electrons
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Summary
Inelastic x-ray scattering using FELs provides unique information that is crucial to understanding important properties of condensed matter
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additional information and examples