seminar wcpm 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene •...
TRANSCRIPT
![Page 1: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/1.jpg)
1
Transport in two-dimensional materials
Vassilios VargiamidisWCPM, University of Warwick, UK
![Page 2: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/2.jpg)
2
OutlineOverview of graphene
• Crystal structure, band structure, Dirac cones, etc.• Density of states
Transport in silicene
• Tuning the charge conductance and transport gap• Spin-resolved, valley-resolved, and charge conductances• Near perfect spin and valley polarizations• Topological phase transitions
Possible applications
Summary
![Page 3: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/3.jpg)
3
Overview of graphene
![Page 4: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/4.jpg)
4
Andrey Geim Kostya Novoselov
Philip Kim
Graphene pioneers (Nobel prize 2010)
New 2D electron system (Manchester 2004)
Nanoscale electron system with tunable properties;Field-effect enabled by gating: tunable carrier density
1. very high mobilities in its suspended form: μ ~ 200.000cm2/(V.s)2. ballistic transport over sub-micron distances:3. high thermal conductivity: κ=5000W/(m.K),4. chemically stable, very stiff, . . .
ml P1~
![Page 5: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/5.jpg)
5
Semimetal (zero bandgap): electrons and holes coexist
• Hexagonal BZ: 2 inequivalent points and where carriers mimic relativisticmassless Dirac particles
• Linear energy dispersion at and : massless Dirac fermion model in 2D.c.
. Slow, but ultrareletivisticDirac Fermions!
• Electronic energy dispersion: Dirac points
..c
.c.
![Page 6: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/6.jpg)
6
Graphene allotropes
3D Graphite
1D Carbon Nanotube (1991)(rolled-up cylinder of graphene)
0D Fullerenes (“buckyball”)
2D Graphene:presumed not to exist in the free state
(1985)
(2004)
![Page 7: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/7.jpg)
Graphene’s honeycomb lattice1st Brillouin zone
Unit cell
![Page 8: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/8.jpg)
8
Tight-binding model for electrons on thehoneycomb lattice
Energy bands:Semi-metal
Dirac points at K and K’
![Page 9: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/9.jpg)
9
Dirac points
The Dirac points are situated at the points where
Time-reversal symmetry:
Dirac points occur in pairs:twofold valley degeneracy
![Page 10: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/10.jpg)
10
Low-energy regime of the TB model: 2D Dirac equation
Valley pseudospin for K and K’ points
Pauli matrices of the sublattice pseudospin
![Page 11: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/11.jpg)
11
Transport in silicene
![Page 12: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/12.jpg)
12
Crystal structure of silicene
46.02 " ǺBuckled structure
• A potential difference arises between silicon atoms at A sites and B siteswhen an electric field is applied
zE"2vzE
• Energy gap 1.55 meV
• Silicene is compatible with silicon-based technology
meVso 9.3|O
![Page 13: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/13.jpg)
13
Low-energy Hamiltonian
� � zzzsozyyxxF skkH WWO[[WWX[ '��� !
1r [ valley index smF /105 5u|X Fermi velocity
iW Pauli matrices of sublattice pseudospin
zE electric field,zz Ee" '
zs electron spin operator normal to silicene plane ( )1r zs
spin-orbit interaction
rkiisk e
eSr
kz
**
** �
¸̧¹
·¨̈©
§
��
<[I[O TOO
TOcos1
cos121)(,,,
Eigenfunctions Eigenvalues
electron (hole) states)1(1 �� O
meVso 9.3|O
2222,,, )( sozzFsk skE
zO[XO[O �'� !
![Page 14: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/14.jpg)
14
Band structuresozz OG /' soF k OXE /! nmVEzz /17.01 � G
![Page 15: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/15.jpg)
15
Density of states
� � � �> @sozsozF
EEE
ED OOXS
�'�4��'�4 22)(!
The DOS reflects the two gaps that open in thesystem
Evolution of the gap with the electric field:G
zzso s[GOG � 2
The gap closes when 1r zz s[G
This yields withczz EsE [
17/ "socE O meV/Å
![Page 16: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/16.jpg)
16
Spin- and valley-polarized transport acrossferromagnetic (FM) silicene junctions
![Page 17: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/17.jpg)
17
Low-energy Hamiltonian
� � MsUppH zzsyyxxF z��'�� W[WWX [[
Barrier potential(gate voltage)
Exchange field
sozzs sz
O[[ �' 'with
Single FM junctionU, M
)()( ykxki
N
iFrki
N
iF
Iyxe
Eec
rAeEec
Ar ���
�¸̧¹
·¨̈©
§��¸̧
¹
·¨̈©
§ <
[T[T***
)()( ykxki
F
iFrki
F
iF
IIyxe
ecbe
ecar �c�
��c
¸̧¹
·¨̈©
§ c��¸̧
¹
·¨̈©
§ c <
HH
[I[I***
rki
N
iF
III eEec
tAr*** �
¸̧¹
·¨̈©
§ <
[T
)(
Eigenfunctions
NF EEA 21 ,
Transmission amplitude
zszFFsozFNFFF MsUEsEEkc [HO[X '��� � ,,!
![Page 18: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/18.jpg)
18
Transmission and conductance through a FM junction
4/)sinsin2)((sincoscos)(coscoscos)( 212222
22
ITDDITITT[ ��c�c
�dkdkT
xxsz
Incidence at an angle :T
FNFF kEk c HD T222 sinFFx kkk �c c
F
soFF
Ek
XO
!
22 �
F
szFF
zMsUE
kX
[
!
22)( '��� c
with and
Fermi wave vectors:
1)( T[ zsT Sndkx cfor as in graphene
Normal incidence :0 T4/))((sin1
1)0( 212 ��c�
DD[ dkT
xsz
(in contrast to grapheneit depends on barrierheight)
zzz sss gGdTGG [
S
S[[ TTT 0
2/
2/0 cos)( ³�
Conductance: hWkeG F S220 ,
W sample width
![Page 19: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/19.jpg)
Spin-resolved conductance
0/,0 Fz EMmG
Resonances for high barrier or deep well with amplitude between 2/3 and 1
2)()(
)(pncpn
pn
� KK gg
g
Transport at the Dirac point (DP) is due to evanescent modes
Transport via evanescent modes is suppressed with increasingand the dip develops to transport gap
zG
nmdmeVEF 110,40
![Page 20: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/20.jpg)
20
Tuning the conductance
pn � gggc
T222 sinFFx kkk �c c
becomes imaginary when becomes imaginary
xk c Fk c
MsUEs zFsozcz ��r ' O[
meVMEU F 5.2,2/
For the Fermi level lies in the gapczz '!'
9.11/ ' socz
cz OG
In graphene 0 'zs[
FFF UEk X!� c�
No analog in graphene
It cannot be made imaginary The junction acts as an electric switch
![Page 21: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/21.jpg)
21
Band structure sozz OG /' soF k OXE /!
Current is entirely carried by spin-down electrons at the ( oscillatory)K cpg
Only evanescent modes contribute to (monotonically decreasing behavior) ng
0zM
![Page 22: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/22.jpg)
22
Conductance and transport gap
0 m
Near the DP is imaginaryFk c
As increases the evanescent modes are gradually damped out transport gap
zG�
socFs E OH /)2,1()2,1(
cFF EE �Transport gap when
sozcFE O�'
![Page 23: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/23.jpg)
23
We aim now to explore possible spin and valley polarizations in FM silicene
![Page 24: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/24.jpg)
24
Spin-resolved and charge conductances
058.0 m
058.0 m
FEMm /
Relative sift of and in the presence of Mng pgTransport gaps for both
is periodic function of U/EFcg
OGXS dET FFu /! 1!!FEUfor
=0.235
![Page 25: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/25.jpg)
25
Valley-resolved and charge conductances
� �� � � �
2pcnc
c
� KKKK
KK
ggg
Kg c
Splitting of the peaks of gc with m
Splitting of the peaks of due to the brokenvalley symmetry in the presence of m
6 zG
6 zG
![Page 26: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/26.jpg)
26
Spin polarization
pn
pn
��
gggg
ps
22.0 m5 zG
For large δz or m:
• only a single spin band contributes to the current• the evanescent modes are suppressed• the change of sign is due to the relative shift of and ng pg
Spin polarization can be inverted by changing U
The range of increases with δz or m1|sp
![Page 27: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/27.jpg)
27
Spin and valley polarization
pn
pn
��
gggg
ps
KK
KKv gg
ggpc
c
��
8 zG
8 zG
and can be inverted by changing the direction of Msp vp
This is directly related to the relative shift of and ng pg
![Page 28: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/28.jpg)
28
Transition from a topological insulator to band insulator regime
Spin-Hall conductivitybecomes zero for highEz
![Page 29: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/29.jpg)
29
The results for the polarized transport through a FM silicene junction can be used to realize silicene-based, high-efficiency spin- and valley-filter.
Other possible applications:
•In spintronics (due to longer spin-diffusion time and spin-coherence length)•In quantum computing•Silicene can overcome difficulties associated with potential applications of graphene in nanoelectronics (lack of a controllable gap)•Optoelectronics•Energy harvesting
![Page 30: Seminar WCPM 2018 - warwick.ac.uk › fac › sci › hetsys › ab101 › ... · 2 e aphene • tc. • es cene • gap • Spin - ey - conductances. 3 of graphene. 4 Geim v Kim))](https://reader033.vdocument.in/reader033/viewer/2022060423/5f19d781bd998955a356cf07/html5/thumbnails/30.jpg)
30
Summary• The buckled structure of silicene can facilitate the control of its band gap by the
application of an electric field Ez.
• Above a critical Ez the charge conductance gc through a silicene FM junctionchanges from an oscillatory to a monotonically decreasing function of thejunction width d. A gap develops near the DP with increasing Ez.
• These features can be used for the realization of electric-field controlledswitching.
• The spin ps and valley pv polarizations near the DP increase with Ez or M,and become nearly perfect ( ) above certain Ez and M values.%100|
• ps and pv can be inverted by reversing the direction of M or U: near perfectspin and valley filtering
Most of the results* have no analog in graphene
*APL 105, 223105 (2014), JAP 117, 094305 (2015)