QUANTUM CHAOS IN GRAPHENE Spiros Evangelou is it the same as for any other 2D lattice? 1.
15
QUANTUM CHAOS IN GRAPHENE Spiros Evangelou is it the same as for any other 2D lattice? 1
-
Upload
erik-craig -
Category
Documents
-
view
218 -
download
1
Transcript of QUANTUM CHAOS IN GRAPHENE Spiros Evangelou is it the same as for any other 2D lattice? 1.
1
QUANTUM CHAOS IN GRAPHENESpiros Evangelou
is it the same as for any other 2D lattice?
2
DISORDER: diffusive to localized
quantum interference of electron waves in a random medium
TOPOLOGY: integrable to chaotic
quantum interference of classically chaotic systems
|ψ|
|ψ|
3
Anderson localization (averages over disorder W)
random matrix theory!
quantum chaos (averages over energy E)
energy level-statistics
4
localized to diffusive
P(S) level-spacing distribution
at the transition?
integrable to chaotic
𝑃 (𝑆 )=exp (−𝑆)
𝑃 (𝑆 )=𝐴𝑺 exp (−𝐵𝑆2)
Poisson
Wignerto
5
Dirac fermions with 2 valleys & 2 sublattices etc.
graphene a sheet of carbon atoms
on a hexagonal lattice
𝐸± (𝑘𝑥 ,𝑘𝑦 )=∓𝛾 √1+4 cos𝑎𝑘𝑥
2cos
√3𝑎𝑘𝑦
2+4 cos
𝑎𝑘𝑥
2
6
linear small-k dispersion near Dirac point
two bands touch at the Dirac point E=0
electrons with large velocity and zero mass
Dirac cones near E=0
6
fundamental physics & device applications
DOS
Exk
yk
7
armchair and zigzag edges
…edge states in graphene
chirality
nanoribbons
flakes:
8
destructive interferencefor zigzag edges
𝑚=0
𝑚=1
𝑚=2
𝜓 1 𝜓2
𝜓3
…
=0
𝜓𝑚≈−2 γ co𝑠2𝑚 𝑘2
𝑁𝑎𝑘𝑎𝑑𝑎𝑒𝑡𝑎𝑙 𝑃𝑅𝐵54 , 17954 ,1996
h𝑊𝑎𝑘𝑎𝑏𝑎𝑦𝑎𝑠 𝑖𝑒𝑡 𝑎𝑙𝑃𝑅𝐵 54 , 8271 ,1999
A atoms
B atoms
𝑘=𝜋 :𝜓𝑚≠0𝑜𝑛𝑙𝑦 𝑓𝑜𝑟𝑚=0
ψ ψ
edge states
…
9
edge states move from to higher energies
in the presence of disorder(ripples, rings, defects,…)
what is the level-statistics of the edge states close to DP?
diagonal disorder (breaks chiral symmetry)
off-diagonal disorder (preserves chiral symmetry)
3D localization
Poisson 𝑃 (𝑆 )=𝐴𝑆exp (−𝐵𝑆2)𝑃 (𝑆 )=exp (−𝑆)
Wigner
intermediate statistics?
disordered nanotubes
11
energy level-statistics
participation ratios
)(14
EPRsitesall
i
Ei
)(1 SPEES iii
energyspacing
Amanatidis & Evangelou PRB 2009
L
W
12
participation ratio:
distribution of PR
the E=0 state
sitesall
i
Ei)E(PR
1400
13
From PR(E=0) vs L
fractal dimension
Kleftogiannis and Evangelou (to be published)
14
level-statistics
from semi-Poisson to Poisson
15
zero disorder: ballistic motion (Poisson stat)
is graphene the same as any 2D lattice?
graphene lies between a metal and an insulator!
weak disorder: fractal states & weak chaos(semi-Poisson statistics)
strong disorder: localization & integrability(Poisson statistics)
Amanatidis et al (to be published)
