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Inelastic Scattering: Neutrons vs X-rays Stephen Shapiro Condensed Matter Physics/Materials Science February 7,2008
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Topics and Outline Discussing collective modes of crystalline solids PHONONS: Not liquids, polymers, soft matter, magnetism Comparing neutrons and x-rays Instrumentation Phonon Dispersion Curves Phase transitions Phonon Linewidths Future Experiments
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Neutrons X-rays Massive Slow Magnetic moment Interacts with nucleus E (meV) = 2.07 k 2 k=2 / e.g. =1Å k=6.28Å -1 E = 81.7 meV Mass less Very fast No magnetic moment Interacts with electrons E (keV) = 1.97 k E = 12.4 keV
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Inelastic NeutronsX-rays +’s-’s Low energyRad. Source Bulk penetrationWeak source Mag. MomentWeak Interaction Isotope sub.Need lge. sample Put int. on abs. basis Resolution well known Versatility of Inst. Many instruments +’s-’s Very intense Interact with e - Small beam size Little penetration Large k i Need high res. Weak mag. Int. Few instruments
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Similarities Measure the same thing: Fluctuation Dissipation Theorem Energy Conservation: Momentum Conservation:
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Inelastic Instrument The same principle: Triple axis (also,neutron time-of-flight, neutron spin echo) Developed by B. Brockhouse in 50’s: 1994 Nobel Prize Source Monochromator 2M2M 2S2S 2A2A Sample Analyzer k i, E i k f, E f
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Inelastic Instruments Consider phonons: 1-100 meV 1 meV = 8.07 cm -1 = 0.24 THz Neutrons: E i ~10 meV E/E i ~ 10 -1 X-rays: Ei~10 keV E/E i ~ 10 -7 How to achieve?? M,A ~ 45 M,A ~ 90
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ID16 - ESRF BT7 - NIST NeutronX-Ray
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Number of Inelastic Instruments with meV resolutions Neutrons US - NIST5 - HFIR 4 - SNS 6 - LANSCE 1 EUROPE - ILL16 - FRMII5 - LLB7 - PSI 4 - ISIS9 ASIA - ……. X-rays US - APS2 Europe - ESRF2 ASIA - SPRING-81
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Experiments Phonon dispersion curve anomalies Phase transitions Phonon linewidths
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Electron Phonon Coupling B. M. Powell, P. Martel, A.D.B. Woods, Phys. Rev 171, 727 (1968 ) Nb: Sample size: 5 cm 3
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- FCC Pu-Ga J. Wong et al., Phys Rev. B72, 064115 (2005) ESRF ID28 Sample Size: Large Grain [30 x 60] x10 m 3
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Structural Phase Transitions SrTiO 3 Au x Zn 1-x Martensite Transition 65K x=.5 x=??
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High T c Superconductors IXS: Fukuda et al. PR B 71, 060501, (2005) INS: Reznik et al., Nature,440, 1170 (2006)
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Line-width Measurements Superconductors: Nb Shapiro, Shirane, Axe, PR B 12, 4899 (1975)
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Neutron Spin Echo Habicht et al. PRB 69, 104301 (2004)
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Linewidth Measurements: Neutron Spin Echo TRISP Instrument @ FRMII, Munich Aynajian, Keller, Boeri, Shapiro, Habicht, Keimerr Science, to be published (2008)
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Phonons in Thermoelectrics Power generating devices Figure of merit Reduce Reduce phonon lifetime Measure by linewidths in single crystals AgPb m SbTe 2+m AgSbTe 2 - PbTe m LAST - m m=18 spectrum
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Needs of < 1.0 meV Resolution in Phonon Measurements Phonon Anomalies in dispersion curves Phonon - ‘x’ interactions Small q measurements Discriminate from Bragg peak Eliminate tails Phase Transitions Soft modes Phonon Linewidths Superconductors Thermoelectrics Lattice dynamics of thin films
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My Summary Neutrons historically has been the method of choice in measuring phonon behavior throughout Brillouin Zone X-rays should replace neutrons Intensity Beam size Never for magnetic excitations Need more IXS instruments
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