Magnets without Direction - PowerPoint PPT Presentation

1 / 35
About This Presentation
Title:

Magnets without Direction

Description:

Magnets without Direction Collin Broholm Johns Hopkins University and NIST Center for Neutron Research Introduction Moment Free Magnetism in one dimension – PowerPoint PPT presentation

Number of Views:176
Avg rating:3.0/5.0
Slides: 36
Provided by: Collin51
Category:

less

Transcript and Presenter's Notes

Title: Magnets without Direction


1
Magnets without Direction
Collin Broholm Johns Hopkins University and NIST
Center for Neutron Research
  • Introduction
  • Moment Free Magnetism in one dimension
  • Higher dimensional MFM
  • Frustrated origins of MFM
  • Interesting aspects of MFM
  • Conclusions

2
G. Aeppli P. Bischer Y. Chen J. F. DiTusa D. V.
Ferraris C. D. Frost T. Ito T. Lectka K. Oka
R. Paul D. H. Reich J. Rittner M. B. Stone H.
Takagi M. Treacy G. Xu H. Yardimci I. Zaliznyak
Acknowledgements
Acknowledgements
NIST Center for Neutron Research ISIS Facility,
Rutherford Appleton Laboratory National Science
Foundation DMR 0074571 Civilian Research and
Development Foundation
3
Many electrons, few magnetic materials
Ti V Cr Mn Fe Co Ni Cu
Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm
U Np Pu Am Cm
Filled shell in solid
Partially filled shell in solid
4
Magnetization of Solid with unfilled Shells
FeBr(C44H28N4) Dilute Fe in organic matrix
Susceptibility data for paramagnetic salt
Spin susceptibility diverges as T 0
5
Coulomb Pauli Heisenberg
Coulomb interactions plus Pauli principle split
4-fold spin degeneracy
J
The level scheme is reproduced by Heisenberg
Exchange Hamiltonian
Triplet gnd. State J lt 0
6
Interactions orient moments
Ferromagnetic EuO
7
Unconventional magnetism in NENP
  • Negative Curie Weiss temperature indicates AFM
    interactions
  • No phase transition and

8
A can of magnetic worms
Magnetic interactions link spins in chains
Ensemble of Quasi-one-dimensional Antiferromagnet
s chains
NENPNi(C2H8N2)2NO2ClO4
9
When is the Neel state unstable?
1. Assume Neel order, derive spin wave dispersion
relation 2. Calculate the reduction in
staggered magnetization due to quantum
fluctuations 3. If then Neel
order is an inconsistent assumption
diverges if on planes
in Q-space
A putative D1 Neel state has soft planes and so
is unstable
10
Moment Free Magnetism averts infrared catastrophe
Y2BaNiO5
D
Ajiro et al. (1989)
11
Unconventional magnetism in PHCC
  • Negative Curie Weiss temperature indicates AFM
    interactions
  • No phase transition and

12
Structure is consistent with spin chains
PHCC C4H12N2Cu2Cl6
13
Magnetic Neutron Scattering
14
SPINS cold neutron triple axis spectrometer at
NCNR
15
Is PHCC quasi-one-dimensional?
16
Unconventional magnetism in CuHpCl
  • Negative QCW indicates AFM interactions
  • No phase transition and
  • Spin ladder model consistent with c(T)

17
CuHpCl hydrogenous single crystals
18
.But there is dispersion to ladder
Q // to chain
19
Other means of destabilizing Neel order
Weak connectivity Order in one part of lattice
does not constrain surrounding spins
20
A Frustrated Route to Moment Free Magnetism?
1. Assume Neel order, derive spin wave dispersion
relation 2. Calculate the reduction in
staggered magnetization due to quantum
fluctuations 3. If then Neel
order is an inconsistent assumption
diverges if on planes
in Q-space
Frustration can produce local soft modes that
destabilize Neel order
21
Neutrons can reveal frustration
The first w -moment of scattering cross section
equals Fourier transform of bond energies
22
Magnetic scattering from CuHpCl powder
23
Neutrons reveal frustration in CuHpCl
Peak to plateau ratio
Mixed signs for bond energies
Frustration
24
Structure of CuHpCl
CuHpCl is hydrogen bonded crystal of
Cu2(C5H12N2)2Cl4
Molecules possess approximate centro
symmetry Exchange interaction within molecule
Jlt1 meV
25
Two lattices from H-bond exchange
b
26
Building an enigma
27
Detailed bond energy distribution
c
(101)
(001)
a
(100)
Point size First moment
28
Frustrated three dimensional spin liquid
29
Significance of findings so far
  • Neutron scattering required to classify quantum
    spin liquids
  • Systems thought to be one dimensional may
    represent a richer class of materials
  • Experimental realizations of spin liquids were
    sought, not found, in symmetric frustrated
    magnets
  • Spin liquids may be more abundant in complex
    geometrically frustrated lattices

30
Field induced T0 phase transition
PHCC
31
Reentrant behavior close to critical point
3 D long range order
Moment free
32
Holes dressed by spin polarons
Ni
Ca2
Y3
O
Xu et al. Science (2000).
33
Transport in Ca doped Y2BaNiO5
T. Ito et al. Submitted to PRL (2001)
34
Holes in a quantum spin liquid
  • Some organic materials can be doped and conduct
    in Field Effect Transistors Schon et al. Science
    (2000)
  • Moment free organo-metallic systems should have
    interesting transport properties if they can
    conduct.

PHCC
35
Conclusions
  • Spin systems with a gap can be mistaken for being
    quasi-one-dimensional
  • Two and three dimensional moment free magnetism
    found in PHCC and CuHpCl
  • Neutron scattering reveals frustrated bonds in
    the corner-sharing triangular clusters of these
    materials
  • Hypothesis Moment free magnetism may be a common
    state of interacting spin systems with triangular
    motif and weak connectivity
  • Idea Novel strongly correlated transport may
    occur if the materials can be doped
Write a Comment
User Comments (0)
About PowerShow.com