Tunable atomic collapse in mono- and bilayer...
Transcript of Tunable atomic collapse in mono- and bilayer...
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Tunable atomic collapse in mono- and bilayer graphene
François PEETERSUniversiteit Antwerpen
[email protected]://www.uantwerpen.be/en/rg/cmt/
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Atoms (Kepler problem)
Classical physics unstable planetary atoms
Quantum theory (Bohr, 1913) stable orbits (wave nature of electrons)
Rydberg formula:
Lower bound:
Heisenberg (1926) : uncertainty principle
Planetary atom stabilized by QM (zero point motion)
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Scaling arguments
2
stable orbitals
collapsing orbitals ?
Ze2 cħ
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Dirac atoms can implode
ComplexReal
Dirac (1929)
= Z
=1/137
E1s = Eg{1-(Z)2}1/2
Complex energies when > 1
Finite size of nucleus
Pomeranchuk nuclear form factor
r0 = 1.2 10-12 cm
1s level dives into Dirac sea at Z=170Pomeranchuk & Smorodinskii (1945)
Werner and Wheeler (1957)
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Supercritical atoms
The electrons collapse into the nucleus,
where they would then eject positrons,
which would spiral outward and away.
Gershteyn, Zeldovich (1969)
Popov (1970)
Z > Zc=170 Collapse
vacuum reconstruction
Resonance states in the Dirac sea
E E=E0 - i with ~ exp(-b/(Z-Zc)1/2)
Quasi-localized spatial structure of the resonance states
Screening by pair production?
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Experiment
Collision of heavy ions
• Darmstadt experiments (1980s & 1990s)
• Uranium (Z = 92)
• 3-6 MeV collisions
5
Signature of atomic collapse: positron emission
>> No signature of supercritical emission <<
U+92
e+ I am free
U+92
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Graphene
3D atoms: = Z critical value Z 1 Zc ~ 137
Zc > existing nuclei (Zmax < 120)
Graphene: c vF
= eff (Z/) critical value c 1/2 Zc /2eff ~ 1
m 0 massless Dirac equation: continuum spectrum
atomic-spectrum : no discrete spectrum
Manifestion of collapse: formation of resonances (quasi-localized spatial structure)
0 (graphene + environment)
eff = (c/vF) 2.5 Large effective fine
structure constant
Scaling of effective charge
e2 e2/
A.V. Shytov et al, PRL 99, 246802 (2007)
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Atomic collapse: graphene
Ca Dimers are moveable charge centers (M. Crommie group, Berkeley)
Y. Wang et al, Science 340, 734 (2013)
STM I(V)
dI/dV DOS(E)
E
BUT: - nucleus has finite size
- nucleus vertical displaced
from plane of electrons
- only one resonance
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Rutgers University
(Andrei-group)
Vacancy (charged)
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Vacancy resonance close to the Fermi level
(half filled case)
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Vacancy peak
ED
EF=0
Spatial dependence Doping dependence
Localized on the vacancy siteIt tracks the Dirac point
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Charging vacancy in graphene
= (c/vF)(Z/)
c=0.5
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F
gv
cZZ
137
1
Spectrum
LDOS
c
R2
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Modelling electronic properties
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Theory
Tight-binding hamiltonian (including next nearest neighbor interactions)
Exact numerical solution for a
hexagonal sample
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Dirac versus TB approach
Qualitative differences: - VP-state
- R1’ - state
ExperimentPristine graphene Single-atom vacancy
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Vacancy peak
Vacancy: atom from sublattice B is removed sublattice symmetry is broken
VP-state is localized on sublattice A (and LDOS is zero on sublattice B)
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Spatial dependence
r
hvrU
F
)(
Vacuum polarization
=1.29
Collapsed states extend far
beyond the vacancy site
Local Dirac point
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LDOS for collapse resonance R1
tunneling
Quasi-classical orbit
quasi-bound
electron inside
Coulomb pot.
low intensity ring
hole continuum
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R1 R1’
- R1 is more localized than R1’
- R1 has higher probability to be on sublattice B (= vacancy)
- R1’ is more localized on sublattice A
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like 2s-state
like 2p-state(not affected by vacancy type)
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STM-tip induced collapse state
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Tuning from AC to WGM
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Whispering gallery modes
- Radius pn-dot changes with EF (from nm to m)
Y. Zhao et al, Science 348, 672 (2015)
- m-large: electron hits pn-boundary under large
angle T() << 1- Length of closed loop = n resonance
- quasi-confinement closer to the circumference
of the junction WGM
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Outlook
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Molecular collapse1=2=0.4 two subcritical impurities
LDOS in center of one of the impurities
collapse
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Molecular collapse
2 impurities with 1=2=0.9E = -77meVd = 8nm
E = -135 meV
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Magnetic field dependence
Has B any effect on the critical charge?
What is the signature of collapse (as function of B)?
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Prediction: in 3D adding a magnetic field will enhance the effect of collapse reduce the
critical charge [V.N. Oraevskii, A.I. Rex, and V.B.Semikoz, Sov. Phys. JETP 45, 428 (1977)].
# Zc independent of B
Y. Zhang, Y. Barlas, and K. Yang, Phys. Rev. B 85, 165423 (2012)
T. Maier and H. Siedentop, J. Math. Phys. 53, 095207 (2012)
S.C. Kim and S.-R. Eric Yang, Ann. Phys. (N.Y.) 347, 21 (2014)
In 2D conflicting predictions of the effect of B on Zc (from continuum theory)
All experiments up to now are in the subcritical regime
Magnetic field confines electrons bring it closer to the nucleus Zc when B
# The critical charge Zc 0 for B # 0.
[O. V. Gamayun, E. V. Gorbar, and V. P. Gusynin, Phys. Rev. B 83, 235104 (2011)].
Problem: B-field singular perturbation no analytic solutions are known
Solutions are qualitatively different from B=0 case:
1) All energies are discrete
2) No complex energy solutions
3) Wavefunctions are normalizable
Renormalization length is introduced and single valley here: lattice model
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Scaling of Landau levels ?
No scaling
of atomic collapsed atates
All levels show B1/2 scaling
Waiting for experimental confirmation
k 1/lB ~ B
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Bilayer graphene
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2-band 4-band mono
Dispersion relation E k2 E k2 , k-small
E k , k-large
E k
Complex energies X X X
Fall-to-center - X X
Zc 0 0 0.5
Bilayer graphene
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Conclusions Graphene as a lab. for investigating relativistic quantum mechanical effects
(which have not been observed with ‘real’ particles):
- Klein paradox
- Atomic collapse
Kepler problem: H = Hkin – Ze2/r
- Classical: Hkin = p2/2m unstable orbits
- Quantum mechanical: Hkin = -ħ2/2m Rydberg spectrum
- Dirac-Weyl (ultra-relativistic): Hkin = vF·p atomic collapse
Graphene: effects due to A/B sublattices are observable (R1/R1’ collapsed states)
Outlook: - molecular collapsed states: bonding / anti-bonding states
- magnetic fields: non-scaling of Landau levels when in collapsed state
critical charge independent of magnetic field
STM-tip: transition from quantum (AC-states) to classical (WGM)
Nature Physics 12, 545 (2016)Nature Nanotechnology 12, 1045 (2017)
2D Materials 5, 015017 (2018) Bilayer: Zc=0, AC-state due to second subband
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Rutgers University (group of Eva Andrei)
Jinhai Mao
Yuhang Jiang
Guohong Li
Takashi Taniguchi
Eva Andrei
Advanced Materials Laboratory, Tsukuba
Kenji Watanabe
University of Antwerp
Dean Moldovan
Massoud Ramezani Masir
Robbe Van Pottelberge
François Peeters
University of Texas, Austin
exp
erim
ent
theo
ry
Leiden, The Netherlands
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THE END