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Probing magnons with Xrays

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Probing magnons with X-rays. Luuk Ament. In collaboration with Fiona Forte & Jeroen van den Brink ... Actually, the Heisenberg model can be derived from a ... – PowerPoint PPT presentation

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Title: Probing magnons with Xrays


1
Probing magnons with X-rays
  • Luuk Ament
  • In collaboration with Fiona Forte Jeroen van
    den Brink

Lorentz-Institute, Leiden University
2
Indirect RIXS
Synchrotron radiation
Interestingsample
4p
wres (5-10 keV)
1s
3
Why RIXS?
  • Second order process
  • Momentum dependence
  • Supplementary to neutron scattering

4
La2CuO4
  • Perovskite layers of CuO2

5
La2CuO4
  • Perovskite layers of CuO2
  • Cu 3d eg holes behave as Heisenberg spins
  • Ground state is antiferromagnetically ordered

6
La2CuO4
  • Perovskite layers of CuO2
  • Cu 3d eg holes behave as Heisenberg spins
  • Ground state is antiferromagnetically ordered
  • Collective excitations magnons

7
What happens in RIXS?
  • Actually, the Heisenberg model can be derived
    from a Hubbard model in the limit U gtgt t with J
    2t2/U
  • The 1s core-hole creates a potential which
    effectively changes U, and therefore J.

8
What happens in RIXS?
  • Actually, the Heisenberg model can be derived
    from a Hubbard model in the limit U gtgt t with J
    2t2/U
  • The 1s core-hole creates a potential which
    effectively changes U, and therefore J.

9
Calculation
  • Kramers-Heisenberg relation gives the cross
    section

10
Calculation
  • Kramers-Heisenberg relation gives the cross
    section
  • Approximate ? gtgt En

11
Calculation
  • Kramers-Heisenberg relation gives the cross
    section
  • Approximate ? gtgt En
  • Hamiltonians conserve Sz only 2-magnon processes!

12
Results
  • Good agreement with recent experiments by John
    Hill et al. at Argonne
  • Vanishing intensity at q (0,0) and q (?,?)
  • Peak in intensity at q (?,0) and ? 500 meV

Theory Theory experimental resolution
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