Magnetic ordering of local moments
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1 Magnetic ordering Types of magnetic structure Ground state of the Heisenberg ferromagnet and antiferromagnet Spin wave High temperature susceptibility Mean field theory
2 Magnetic ordering of local moments In some solids, individual magnetic ions have non-vanishing average magnetic moments below a critical temperature T c. Such solids are called magnetically ordered. Ferromagnetic order: net magnetization, T c : Curie temperature. Antiferromagnetic order : no net magnetization, T c : Neel temperature, can be probed by elastic neutron scattering. (a),(b),(c): ferromagneitc, antiferromagnetic and ferrimagnetic ordering.
3
4 Critical behaviors Magnetization Magnetic susceptibility FM AFM Specific heat α,β,γ are universal exponents.
5 Ground state of the Heisenberg FM Ferromagnetic Heisenberg Hamiltonian Construct the ground state of Hamiltonian
6 The energy of ground state where we have used the following relations Q: : Prove that you cannot find a state with lower energy than the energy of
7 Ground state of the Heisenberg AFM Hamiltonian: Estimation of ground state energy: Only one-dimensional array of spin-half ions with coupling between nearest neighbors can be solved by Bethe ansatz exactly.
8 Order by symmetry breaking Spin rotationally invariant Hamiltonian H 0 Degenerate ground states In presence of an external magnetic field H H 0 hs z q, Spontaneously symmetry breaking S z q i iq r e i S z i lim h 0 z S q 0 Nambu-Goldstone theorem: Spontaneously broken continuous symmetry implies the existence of low energy excitations called Goldstone modes which intend to recover the broken symmetry.
9 Mermin-Wagner theorem For the quantum Heisenberg model H 2N 1 JijSi S 2 with short-range range interactions that obey ij r 1 J 2 ij ri j ij j,, there can not be spontaneously broken spin symmetry at finite temperature in one and two dimensions. N.D. Mermin, H. Wagner: "Absence of Ferromagnetism or Antiferromagnetism in One- or Two-Dimensional Isotropic Heisenberg Models", Phys. Rev. Lett. 17, (1966) P.C. Hohenberg: "Existence of Long-Range Order in One and Two Dimensions", Phys. Rev. 158, 383 (1967) Sidney Coleman: "There are no Goldstone bosons in two dimensions", Commun. Math. Phys. 31, 259 (1973)
10 Goldstone modes: Spin waves To construct low-lying states of ferromagnet, we consider a state The above state differs from the ground state only in that the spin at site R has had its z-component reduced from S to S-1 To get the above equation, we need the following relations
11 It implies that linear combination of are eigenstates. We obtain If, we can write the excited energy When we have
12 The total spin in the state is NS-1. The lower spin is distributed with equal probability 1/N The orientations of the transverse components of two spins separated by differ by an angle
13 The mean number of spin waves (magnon( magnon) ) with wave vector k at temperature T is Then the magnetization at temperature T satisfies At low temperature, only small excitation energies contribute to the integral, the spontaneous magnetization is given by Implication 1: 1 Bloch law
14 Implication 2: No spontaneous magnetization in one- and two-dimensional isotropic Heisenberg model, which is agree with Mermin-Wagner theorem. AFM : SpinwaveexcitationenergyofHeiserberg AFMislinearinkat longwavelengths. Spin wave spectrum can be detected by inelastic neutron scattering.
15 High temperature susceptibility In the limit of infinite temperature, spins at different sites are a completely uncorrelated. Then, the correlation function is given by
16 Finally, we have The high temperature susceptibility is with where can be positive or negative according to the coupling is ferromagnetic or antiferromagneitc.
17 Mean field theory The Heisenberg Hamiltonian corresponding to site R It has the form of the energy of a spin in an effective external field: The mean field approximation: we replace effective field by its thermal equilibrium mean value. Use the second term: molecular field (Weiss field)
18 The solution of magnetization is given by The spontaneous magnetization is We can write the above mean field equation as the pair of equations.
19 A nonzero solution implies The zero-field susceptibility without interaction Curie law The critical temperature T c The susceptibility in the MF approximation Curie-Weiss law θ >0 for FM, and θ <0 for AFM Remarks: : reliable only at high temperature.
20 Summary The types of magnetic ordering: ferromagnetic, antiferromagnetic ordering. Ground state of FM :. Spin wave: Bloch law for FM, the parabolic and the linear dispersion for FM and AFM spin wave at long wavelengths. Mean field theory, and Curie-Weiss law (high temperature correction).
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