the integer quantum hall effecthall effect justin h. wilson wednesday, september 18, 13 quantum hall...
Post on 02-Aug-2020
8 Views
Preview:
TRANSCRIPT
THE INTEGER QUANTUM HALL EFFECT
Justin H. Wilson
Wednesday, September 18, 13
QUANTUM HALL EXPERIMENTK. V. Klitzing, G. Dorda, and M. Pepper PRL 45, 494 (1980)
Wednesday, September 18, 13
THE BASICS
•Magnetic Field
• Charge
• Effective Mass
• g-factor
Two scales are important:
Cyclotron frequency
Magnetic length
B
e
m
g⇤
!c = eB/m
`B =p
~/(eB)
Wednesday, September 18, 13
THE HALL EFFECT IN A PURE SYSTEM
E = (n+ 1/2)~!c ± 12g
⇤µBB
Ne = nA, N� = BA/(h/e)
⌫ =Ne
N�=
nh
eB
vdrift = E/B, I = envdriftw, VH = Bvdriftw
Landau Levels
Filling fraction
Hall Resistance
RH =VH
I=
B
ne=
1
⌫
h
e2
Wednesday, September 18, 13
LANDAU LEVELS AND DISORDER
⇢(E)
ELocalized states
Extended states
Plot (right):Advanced Quantum Mechanics II PHYS 40202 : taken from
- http://oer.physics.manchester.ac.uk/AQM2/Notes/Notes-4.4.htmlhttp://creativecommons.org/licenses/by-nc-
sa/3.0/
Wednesday, September 18, 13
PERCOLATION
V (x, y)
Localized and extended states
Width of states`B =
p~/(eB)
Correlation length of disorder� � `B
Wednesday, September 18, 13
NEW PUZZLE
• If we have reduced the number of current carrying states, how is the Hall resistance not affected?
Wednesday, September 18, 13
EDGE STATES
S D
y
x
Empty Landau level
µD
y
V(y)
VSDµS � µD = eVSD
I =ev
L⇥ L(µS � µD)
hv=
e2
hVSD
Current per state Difference in states on top and bottom
Wednesday, September 18, 13
FLUX INSERTION
IV
�+ �̃(t) V = �d�̃
dt
I = �xy
V
t
�0 = h/e
�tot
(t)
Change of one flux quantum returns us to initial state
integer⇥ e = Q = �xy
�� = �xy
h
e
�xy
= integer⇥ e2
h
Wednesday, September 18, 13
CHERN NUMBER
⇥
�(t)H =
1
2
"✓�i~@
x
+e⇥
Lx
◆2
+
✓�i~@
y
+ eBx+e�
Ly
◆#+ V (x, y)
(x, y + Ly) = (x, y)
(x+ L
x
, y) = e
iyL
x
/`
2B (x, y)
jx
Lx
=@H
@⇥
hIx
i = @⇥E � i~[h@⇥ |@� i � h@� |@⇥ i]@t�
�xy
�̄xy
= � i~(h/e)2
ZZh/e
0d� d⇥r⇥ v =
e2
h
1
2⇡i
Iv · dl
Integer
TKNN, PRL 49, 405 (1982)
Wednesday, September 18, 13
SCALING FLOW DIAGRAMg(L) =
h
e2�xx
(L)Ld�2
�(g) =@ ln g
@ lnL
Anderson insulator (good) Metal
g(L) / Ld�2, �(g) = d� 2g(L) / e�L/⇠, �(g) < 0
�(g)
ln(g)
d = 3
d = 2
d = 1
g⇤d > 2
Insulator Metal
Wednesday, September 18, 13
QUANTUM HALL SCALING FLOW
Hall conductance adds another parameter that can “flow”
H. Levine, S. B. Libby, and A. M. M. Pruisken, PRL 51, 1915 (1983)
D. E. Khmel’nitzkii, JETP Lett. 38, 552 (1983)
Plateau transition
Quantum Hall Plateau
(e2/h)
Wednesday, September 18, 13
CONCLUSION
• The Quantum Hall effect, due to a magnetic field, crucially depends on disorder in a system.
• The localized states don’t contribute to conductance, and the quantization can be found with either :
• Edge states
• Flux insertion
• Chern numbers
• Scaling flow diagrams due of conductance provide a description of the Quantum Hall transition with disorder.
Wednesday, September 18, 13
top related