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Joachim Stöhr Stanford Synchrotron Radiation Laboratory X-Ray Absorption Spectroscopy J. Stöhr, NEXAFS SPECTROSCOPY,

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Presentation on theme: "Joachim Stöhr Stanford Synchrotron Radiation Laboratory X-Ray Absorption Spectroscopy J. Stöhr, NEXAFS SPECTROSCOPY,"— Presentation transcript:

1 Joachim Stöhr Stanford Synchrotron Radiation Laboratory X-Ray Absorption Spectroscopy http://www-ssrl.slac.stanford.edu/stohr J. Stöhr, NEXAFS SPECTROSCOPY, Springer Series in Surface Sciences 25, (Springer, Heidelberg, 1992). J. Stöhr and H. C. Siegmann MAGNETISM: FROM FUNDAMENTALS TO NANOSCALE DYNAMICS, Springer Series in Solid State Sciences 152, (Springer, Heidelberg, 2006)

2 Physical Processes

3 Fermi's Golden rule Kramers- Heisenberg relation Quantum Theoretical X-Ray Interactions with Matter: The Basic Processes

4 Tunable x- rays offer large interaction cross sections neutrons electrons optical light Photoemission

5 Thomson Cross section http://www-cxro.lbl.gov/index.php?content=/tools.html Kortright and Kim, Phys. Rev. B 62, 12216 (2000) Fe atom X-Ray Absorption and Scattering Cross Sections per Atom Experiment Fe metal f 1 and f 2 tabulated Henke-Gullikson factors

6 X-ray Absorption Spectra in a Nutshell tabulated Henke-Gullikson

7 Absolute absorption coefficients from experimental spectra (from Henke-Gullikson compilation)

8 Names: XAFS – NEXAFS –XANES - EXAFS Interference of outgoing photoelectron and scattered waves Nearest neighbor distances Number of neighbors or XANES

9 Tunable x-rays offer elemental specificity

10 Experimental Soft X-rayTechniques

11 Experimental X-Ray Absorption Techniques

12 X-Ray Absorption versus Photoemission

13 Electron Yield Sampling Depth

14 Surface sensitivity of total and Auger yield

15 total yield

16

17 Some Fundamental X-Ray Absorption Spectra -- soft x-rays --

18 NEXAFS spectra of polymers: building block picture

19 Chemical Sensitivity Core level shifts and Molecular orbital shifts

20

21 NEXAFS of Transition Metals Dipole selection rule 2p 3d - strong 2p 4s - weak Total intensity reflect number of empty holes Ebert et. al. Phys. Rev. B 53, 16067 (1996). “white lines”

22

23 Polarized X-Rays - Dichroism “dichroism” = pol. dep. absorption

24 Polarization definitions (high energy physics) Historical note: different “handedness” definitions in optics (space) versus high energy physics (time)

25

26 Polarized x-rays offer orientation sensitivity Antiferromagnetic order Orientational order Chirality Ferromagnetic order

27 X-Ray Natural Linear Dichroism

28

29 C. T. Chen et al. PRL 68, 2543 (1992) Linear Charge Dichroism in a d-electron system

30 J. Stöhr et al., Science 292, 2299 (2001)

31 X-Ray Magnetic Linear Dichroism

32 sum Magnetic field splits p-orbitals

33 XMLD – spectra below and above T N Lüning et al. Phys. Rev. B 67, 214433 (2003)

34 XMLD spectra of two oxides

35 XMLD effects especially strong in multiplet peaks (Ni 2+,d 8 ) (Ni 1+,d 9 )

36 X-ray Magnetic Circular Dichroism

37 Magnetic Circular Dichroism

38 Soft x-rays are best for magnetism

39 XMCD spectra of the pure ferromagnetic metals

40 The sum rules

41

42 =0 for x-rays DipoleChirality  k=k 0  /c X-ray Natural Circular Dichroism

43 Pasteur’s and Faraday’s experiments

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