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Magnetic Frustration at Triple-Axis  Magnetism, Neutron Scattering, Geometrical Frustration  ZnCr 2 O 4 : The Most Frustrated Magnet How are the fluctuating.

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Presentation on theme: "Magnetic Frustration at Triple-Axis  Magnetism, Neutron Scattering, Geometrical Frustration  ZnCr 2 O 4 : The Most Frustrated Magnet How are the fluctuating."— Presentation transcript:

1 Magnetic Frustration at Triple-Axis  Magnetism, Neutron Scattering, Geometrical Frustration  ZnCr 2 O 4 : The Most Frustrated Magnet How are the fluctuating spins in the Spin Liquid phase correlated with each other? How does nature respond to the ground state degeneracy?  Summary S.-H. Lee, S. Park, P.M. Gehring NCNR

2 Lattice of B sites : Corner-sharing tetrahedra Space group Fd3m O A B ZnCr 2 O 4 3d egeg t 2g Free Ion Cubic Field Cr 3+ (3d 3 ) d xy, d yz, d zx Edge-sharing octahedra H = -J  S i. S j nn

3 Magnetic Neutron Scattering Neutron:  Wavelength comparable with interatomic spacings  Penetrating  bulk properties are measured  has spin s = ½ so interacts with atomic moments Scattering by atomic magnetic moments: I = (0.54) 2 S (S+1) Magnetic scattering intensities can be comparable to nuclear scattering !!

4 Neutron Scattering d2d2 dddd (Q,)(Q,) ? Incident neutrons Sample Scattered neutrons measures scattering cross section as a function of Q and  k i, E i, s k f, E f, s

5 Magnetic Neutron Scattering Cross Section Spin-Spin Correlation Function d2d2 dddd Fourier Transform Ordered moment Fluctuating moment  0 Time  ~ h/  0 Q  ~ 1/   : relaxation time  : intrinsic linewidth  : lifetime  : correlation length Long range order Short range order R-R The probability of finding a spin in a spin state S R at position R at time t when another spin at R’ at time t=0 is in a spin state S R /

6 Phase Diagram for an Ordinary Magnet T (K)  CW = JzS(S+1)/3k B AFM or FM Paramagnet Ground State : Long range (anti)ferromagnetically ordered state. Low Energy Excitations : linear spin waves around the ordered state. F = H mag – TS = -  J S i S j - TS TS > | H mag | | H mag | > TS

7 Correlation Function d2d2 dddd Fourier Transform Ordered moment Fluctuating moment  0 Q Time  ~ h/   ~ 1/   : relaxation time  : intrinsic linewidth  : lifetime  : correlation length Long range order Short range order 0 R-R Neutron Scattering Cross Section Paramagnetic phase: What kind of magnetic scattering signal in Q and  space would you expect? (2) Any Inelastic signal? (1) Any Elastic signal? If any, what kind of shape in the  - and Q-space? Neel phase: What kind of magnetic scattering signal in Q and  space would you expect?

8 Geometrical Frustration A simplest example: a Triangle of three antiferromagnetic Ising spins H = -J  S i. S j All exchange interactions can not be satisfied. AFM Geometrical frustration leads to a large degeneracy in the ground state A tetrahedron with four isotropic spins  S i =0 Zero energy modes in the ground state manifold E=-|J| ?

9 Lattice of B sites : Corner-sharing tetrahedra Geometrically frustrated Space group Fd3m O A B Why ZnCr 2 O 4 ? 3d egeg t 2g Free Ion Cubic Field Cr 3+ (3d 3 ) d xy, d yz, d zx Edge-sharing octahedra Interaction between nearest neighbor Cr 3+ ions through direct overlap of t 2g orbitals is dominant. Best candidate for a system with H = -J  S i. S j nn

10 T (K)  CW = JzS(S+1)/3k B Paramagnet ? Phase Diagram for Geometrical Frustration Geometrically frustrated What is the nature of the low temperature phase ? F = H mag – TS = -  J S i S j - TS

11 Theory of spins with AFM interactions on corner-sharing tetrahedra SPIN TYPE SPIN LOW T METHOD REFERENCE Value PHASE Isotropic S=1/2 Spin Liquid Exact Diag. Canals and Lacroix PRL ’98 Isotropic S= Spin Liquid MC sim. Reimers PRB ’92 Moessner, Chalker PRL ’98 H = -J  S i. S j

12 Issues  Nature of the Spin Liquid State How are the fluctuating spins in the SL phase correlated with each other?  Novel Phase Transition? How does nature respond to the ground state degeneracy? You will be able to answer the questions after the demonstration session at SPINS!

13 A Phase Transition in ZnCr 2 O 4  CW = -390 K T N = 12.5 K Phase transition What is the nature of the phase transition? A.P. Ramirez, unpublished

14 Paramagnetic fluctuations in frustrated AFM Paramagnetic fluctuations in frustrated AFM Local spin resonance in magneto-elastic LRO phase Local spin resonance in magneto-elastic LRO phase Neutron Scattering from ZnCr 2 O 4 SHL et al., PRL 84, 3718 (2000)

15 d2d2 dddd Fourier Transform Ordered moment Fluctuating moment  0 Q Time  ~ h/   ~ 1/   : relaxation time  : intrinsic linewidth  : lifetime  : correlation length Long range order Short range order 0 R-R Keep in mind !!! Neutron scattering is the most powerful technique to study magnetism!!

16 SPINS : Cold Neutron Triple-Axis Spectrometer

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