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Efimov effect in quantum magnets Yusuke Nishida (LANL) YITP workshop on “physics of quantum spin systems” November 12-14 (2012)
LA-UR-12-26094
Plan of this talk 1. Universality in physics 2. What is the Efimov effect ? Keywords: universality, discrete scale invariance, RG limit cycle 3. Efimov effect in quantum magnets * * based on collaboration with Y. Kato and C. D. Batista, arXiv:1208.6214
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Introduction
1. Universality in physics 2. What is the Efimov effect ? 3. Efimov effect in quantum magnets
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(ultimate) Goal of research Understand physics of few and many particles governed by quantum mechanics atomic BEC
neutron star
graphene liquid helium
superconductor
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When physics is universal ? A1. Continuous phase transitions Water
vs.
liquid
pressure
Magnet
magnetic field
E.g.
solid gas
ξ/ r0 →
↑↑↑↑↑ temperature
↓↓↓↓↓
temperature
Water and magnet have the same exponent β 0.325 liq
gas
⇥ (Tc
T)
M
M⇥ ⇥ (Tc
T)
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When physics is universal ? A2. Scattering resonances
a/r0 →
scattering length
a/r0
V(r)
potential depth V
V r0
a<0
a→
a>0
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Efimov effect
1. Universality in physics 2. What is the Efimov effect ? 3. Efimov effect in quantum magnets
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Efimov effect
Volume 33B, n u m b e r 8
PHYSICS
LETTERS
21 D e c e m b e r 1970
Efimov (1970) ENERGY
LEVELS
ARISING FROM RESONANT IN
A
THREE-BODY
TWO-BODY
FORCES
SYSTEM
V. E F I M O V
A.F.Ioffe Physico-Technical Institute, Leningrad, USSR Received 20 O c t o b e r 1970
R e s o n a n t two-body f o r c e s a r e shown to give r i s e to a s e r i e s of levels in t h r e e - p a r t i c l e s y s t e m s . The n u m b e r of such levels may be v e r y l a r g e . P o s s i b i l i t y of the e x i s t e n c e of such levels in s y s t e m s of t h r e e a - p a r t i c l e s (12C nucleus) and t h r e e n u c l e o n s (3ti) is d i s c u s s e d .
T h e r a n g e of n u c l e o n - n u c l e o n f o r c e s r o i s k n o w n to b e c o n s i d e r a b l y s m a l l e r t h a n t h e s c a t t e r i n g l e n g t s a. T h i s f a c t i s a c o n s e q u e n c e of t h e r e s o n a n t c h a r a c t e r of n u c l e o n - n u c l e o n f o r c e s . A p a r t f r o m t h i s , m a n y o t h e r f o r c e s in n u c l e a r p h y s i c s a r e r e s o n a n t . T h e a i m of t h i s l e t t e r i s to e x p o s e a n i n t e r e s t i n g e f f e c t of r e s o n a n t f o r c e s in a three-body system. Namely, for a '"r o a s e r i e s of b o u n d l e v e l s a p p e a r s . In a c e r t a i n c a s e , t h e n u m b e r of l e v e l s m a y b e c o m e i n f i n i t e . L e t u s e x p l i c i t l y f o r m u l a t e t h i s r e s u l t in the simplest case. Consider three spinless neutral
t i c l e b o u n d s t a t e s e m e r g e one a f t e r t h e o t h e r . At g = go ( i n f i n i t e s c a t t e r i n g l e n g t h ) t h e i r n u m b e r i s i n f i n i t e . A s g g r o w s on b e y o n d go, l e v e l s l e a v e i n t o c o n t i n u u m one a f t e r the o t h e r ( s e e fig. 1). T h e n u m b e r of l e v e l s i s g i v e n by t h e e q u a t i o n N ~ 1 ln(jal/ro) 7T
(1)
A l l t h e l e v e l s a r e of t h e 0 + kind; c o r r e s p o n d i n g w a v e funcLions a r e s y m m e t r i c ; the e n e r g i e s EN .~ 1/r o2 (we u s e ~ = m = 1); t h e r a n g e of t h e s e b o u n d s t a t e s i s m u c h l a r g e r t h a n r o.
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Efimov effect When 2 bosons interact with infinite a , 3 bosons always form a series of bound states
Efimov (1970)
a→
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Efimov effect When 2 bosons interact with infinite a , 3 bosons always form a series of bound states
Efimov (1970)
...
... R 22.7 R (22.7)2 R
Discrete scaling symmetry
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Efimov effect When 2 bosons interact with infinite a , 3 bosons always form a series of bound states
Efimov (1970)
1.3
...
R
R
Discrete scaling symmetry
...
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Renormalization group limit cycle Renormalization group flow diagram in coupling space g2
g2
g1
RG fixed point Scale invariance E.g. critical phenomena
g1
RG limit cycle Discrete scale invariance E.g. Efimov effect
Rare manifestation in physics !
Ultracold atom experiments
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Ultracold atoms are ideal to study universal quantum physics because of the ability to design and control systems at will
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Ultracold atom experiments
Ultracold atoms are ideal to study universal quantum physics because of the ability to design and control systems at will Interaction strength by Feshbach resonances
10
100 a0
scattering length (ao)
3000 2000
Universal regime
1000 0 -1000 -2000 -3000
215
220 225 B (gauss)
230 C.A. Regal & D.S. Jin PRL90 (2003)
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Ultracold atom experiments Florence group for 39K (2009)
atom loss rate
25
Bar-Ilan University for 7Li (2009)
Rice University for 7Li (2009) 22.5
21.1
scattering length a/a0
Discrete scaling & Universality !
Efimov effect is universal ? • Efimov effect is
universal
= appears regardless of microscopic details (physics technical term)
• Efimov effect is not
universal
universal = present or occurring everywhere (Merriam-Webster Online)
Can we find the Efimov effect in other physical systems ?
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Efimov effect in quantum magnets 1. Universality in physics 2. What is the Efimov effect ? 3. Efimov effect in quantum magnets
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Quantum magnet Anisotropic Heisenberg model on a 3D lattice X"X + z z z 2 H= (J Sr Sr+eˆ + Jz Sr Sr+eˆ ) + D(Sr ) r
z BSr
eˆ
exchange anisotropy
single-ion anisotropy
Spin-boson correspondence ⇔ fully polarized state (B➔∞)
No boson = vacuum
⇔ N spin-flips
N bosons = magnons
#
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Quantum magnet Anisotropic Heisenberg model on a 3D lattice X"X + z z z 2 H= (J Sr Sr+eˆ + Jz Sr Sr+eˆ ) + D(Sr ) r
z BSr
eˆ
xy-exchange coupling ⇔ hopping
single-ion anisotropy ⇔ on-site attraction
z-exchange coupling ⇔ neighbor attraction ⇔ N spin-flips
N bosons = magnons
#
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Quantum magnet Anisotropic Heisenberg model on a 3D lattice X"X + z z z 2 H= (J Sr Sr+eˆ + Jz Sr Sr+eˆ ) + D(Sr ) r
z BSr
eˆ
xy-exchange coupling ⇔ hopping
single-ion anisotropy ⇔ on-site attraction
z-exchange coupling ⇔ neighbor attraction Tune these couplings to induce scattering resonance between two magnons ⇒ Three magnons show the Efimov effect
#
Two-magnon resonance Scattering length between two magnons h ⇣ ⌘i J z 3 D D 1 3J 1 6SJ as J 2⇡ = ⇣ ⌘ h ⇣ J J z z a D D 2S 1 + J 1 6SJ + 1.52 1 3J 1 J Two-magnon resonance (as➔∞) • Jz /J = 2.94 (spin-1/2) • Jz /J = 4.87 (spin-1, D=0) • D /J = 4.77 (spin-1, ferro Jz=J>0) • D /J = 5.13 (spin-1, antiferro Jz=J<0) • ...
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D 6SJ
⌘i
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Three-magnon spectrum
At the resonance, three magnons form bound states with binding energies En • Spin-1/2
n
En /J
0 1 2
2.09 ⇥ 10 4.15 ⇥ 10 8.08 ⇥ 10
• Spin-1, D=0
p 1
En 1 /En — 22.4 22.7
4 7
• Spin-1, Jz=J>0
n
En /J
0 1
5.50 ⇥ 10 1.16 ⇥ 10
4
En /J
0 1 2
5.16 ⇥ 10 1.02 ⇥ 10 2.00 ⇥ 10
1
En 1 /En — 22.4 22.7
3 6
• Spin-1, Jz=J<0
p 2
n
p
En 1 /En — 21.8
n
En /J
0 1
4.36 ⇥ 10 8.88 ⇥ 10
p 3 6
En 1 /En — 22.2
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Three-magnon spectrum
At the resonance, three magnons form bound states with binding energies En • Spin-1/2
n
En /J
0 1 2
2.09 ⇥ 10 4.15 ⇥ 10 8.08 ⇥ 10
• Spin-1, D=0
p 1 4 7
En 1 /En — 22.4 22.7
n
En /J
0 1 2
5.16 ⇥ 10 1.02 ⇥ 10 2.00 ⇥ 10
p 1 3 6
En 1 /En — 22.4 22.7
Universal scaling law by ~ 22.7 confirms they are Efimov states !
Toward experimental realization
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1. Find a good compound whose anisotropy is close to the critical value E.g. Ni-based organic ferromagnet with D/J~3 (critical 4.8) R. Koch et al., Phys. Rev. B 67, 094407 (2003)
3. Observe the Efimov states of three magnons with • absorption spectroscopy • inelastic neutron scattering
!!"#$
!! "! !! !#! #!!$! %&'
%&'(()&'""#$%$
• electron spin resonance (many references since 1966)
T. Kawamoto et al, JPSJ (2001)
2. Tune the exchange coupling with pressure to induce the two-magnon resonance
C.f. TDAE-C60
Toward experimental realization
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1. Find a good compound whose anisotropy is close to the critical value E.g. Ni-based organic ferromagnet with D/J~3 (critical 4.8) R. Koch et al., Phys. Rev. B 67, 094407 (2003)
3. Observe the Efimov states of three magnons with • absorption spectroscopy • inelastic neutron scattering
!!"#$
!! "! !! !#! #!!$! %&'
%&'(()&'""#$%$
• electron spin resonance (many references since 1966)
Find interested experimentalists !
T. Kawamoto et al, JPSJ (2001)
2. Tune the exchange coupling with pressure to induce the two-magnon resonance
C.f. TDAE-C60
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Summary Efimov effect: universality, discrete scale invariance, RG limit cycle atomic physics
nuclear physics
condensed matter
Efimov effect in quantum magnets induced by • exchange anisotropy
• spatial anisotropy
• single-ion anisotropy
• fructration (arXiv:1208.6214)
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Summary Efimov effect: universality, discrete scale invariance, RG limit cycle atomic physics Atomic BEC (1995 Efimov effect (2006
nuclear physics )
)
condensed matter
Magnon BEC (1999
)
Efimov effect (201?
? )
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Summary Efimov effect: universality, discrete scale invariance, RG limit cycle atomic physics Atomic BEC (1995 Efimov effect (2006
condensed matter )
)
Magnon BEC (1999
)
Efimov effect (201?
? )
New link between atomic and magnetic systems
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Summary Efimov effect: universality, discrete scale invariance, RG limit cycle atomic physics
Few-body physics
condensed matter
Many-body physics
How interplay ?
• • • •
magnetism superconductivity superfluidity ...
Summary
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(h). Universal few-body physics (and its interplay with many-body)