New Tunable Meta-surfaces for Active Manipulations of …ias.ust.hk/events/201601wp/doc/Presentation...
Transcript of New Tunable Meta-surfaces for Active Manipulations of …ias.ust.hk/events/201601wp/doc/Presentation...
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Tunable Meta-surfaces for Active Manipulations of Electromagnetic Waves
Lei Zhou
Physics Department, Fudan University,
Shanghai 200433, China
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Acknowledgements
• Key collaborators Yuanbo Zhang, Qiong Wu
• Key contributors Shaojie Ma, Ziqi Miao, Xin Li, Wujiong Sun, Weijie Luo, Jiaming Hao, Shulin Sun, Qiong He
• NSFC Shanghai Sci. Tech. Committee
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Outline
Backgrounds and recent works in my group
Complete phase diagram for metal/insulator/metal
meta-surfaces (PRL, 2015)
Graphene meta-surfaces for full-range phase control
(PRX, 2015)
Conclusions
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What is Metamaterial?
Structural unit: atom
Conventional material Metamaterial
Structural unit: artificial microstructure
In principle, there is no homogeneous medium except for vacuum.
However, when >> unit, the medium can be viewed as a homogeneously
effective medium, with definite and
• In principle, nothing is homogeneous except vacuum.
• However, as structural unit < < wavelength,a material is homogenized with
effective ; A natural material is homogeneous for visible light
• Change natural atom to subwavelength microstructure, a Metamaterial is formed
,
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Metamaterials Metasurfaces
• Bulk MTM goes to single-layer metasurface
• Inhomogeonity provides more freedom to control EM waves
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1) Gradient meta-surfaces to bridge PW and SW
S. Sun et al., Nat. Mater. 11, 426 (2012)
|| 0 sinr
ik k Generalized Snell’s law PW SW conversion
S. Sun et al., Nano Lett. 12 6223 (2012)
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Problems of the gradient coupler
“Driven SW” flows on the
“inhomogeneous” meta-surface
Decouplings due to scatterings
are inevitable
Only works for small beam width
Q. Che et. al., EPL 101, 54002 (2013)
SPP Output Port
Metasurface Plasmonic Metal
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New concept: Meta-coupler for high-efficiency SPP conversion
• Transparent gradient meta-surface: No reflection • No x -x symmetry, decoupling is forbidden • More efficient to extract SPP
|| 0 sinr
ik k
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Realization in Microwaves NF characterizations
Meta-coupler is the best, several
times higher than others;
Working bandwidth: 8.8-9.5 GHz;
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SPP excitation efficiency: Measured vs FDTD
73% efficiency (Expt.)
Match well with FDTD
(75%).
W. Sun et al., Light: Science & Applications 5, 16003 (2016).
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2) Spin-dependent meta-surfaces for 100%-efficiency PSHE
Case 1: Symmetrical Case 2: Asymmetrical
• Establish a criterion to realize 100%-efficiency PSHE • Experimentally demonstrated in microwaves
Luo et. al., Adv. Opt. Mater. 3, 1102, (2015)
0uu vv uv vur r r r
Half-wavelength plate
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1) Tailor the functionalities of meta-surfaces based on a complete phase diagram
2) Toward full-range phase modulation with gate-controlled graphene meta-surfaces
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What is Metal/Insulator/Metal Metasurface?
MIM Meta-surface can control reflectance and phase on resonance
Change
geometry/material Reflectance modulation Phase modulation
metal/insulator/metal
Metal
Spacer
Pattern
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Applications 1:Reflectance Modulation
MIM metasurface triggers many applications through reflectance modulation
Perfect absorption
N. I. Landy, et. al.
PRB 78, 241103(2008)
Active modulation
Yu Yao, et. al.
Nano Lett. 14, 6526 (2014)
Perfect absorption
JM Hao et. al.
APL 96 251104 (2010)
Na Liu, et. al.
NL 10, 2342(2010)
Color Printing
Alexander S. Roberts, et.
al.
Nano Lett. 14, 783 (2014)
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Application 2: Phase Modulation
MIM metasurface triggers many applications through phase control
J.M. Hao, et. al.
PRL. 99, 063908 (2007)
polarization control anomalous reflection
S.L. Sun, et. al.
Nat Mater 11, 426-431(2012)
flat-lens focusing
Anders Pors, et. al.
Nano Lett. 13, 829 (2013)
holograms
Wei Ting Chen, et. al.
Nano Lett. 14, 225 (2014)
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Motivations
• Why and when certain functionality ?
• Guidelines for designing MIM metasurfaces with
desired functionalities
Change
geometry/material
Metal
Spacer
Pattern
Reflectance modulation
Na Liu, et. al.
Nano Lett. 10, 2342(2010)
Phase modulation
S.L. Sun, et. al.
Nat Mater 11, 426-431(2012)
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0
1 /1
(1 ) 1 / 2 1 / 2
r
a r
Qr
i Q Q
Coupled-mode theory for MIM metasurface
S. Fan et. al., J. Opt. Soc. Am. A 20, 569(2003)
W. Suh et. al., IEEE J. Quantum Electron.,QE 40,1511(2004)
Response:
0
0
1 1 2( ) 1
21
a r e
e
it
r r
0
2 i
iQ
CMT model describes response through lumped Qr and Qa
metal/insulator/metal
Coupled mode
theory:
Metal
Spacer
Pattern
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The competitions between two Q factors generate a variety of physical effects
0
1 /1
(1 ) 1 / 2 1 / 2
r
a r
Qr
i Q Q
Reflectance
modulation
Phase
modulation
ω = ω0
Coupled-mode analyses: Generic phase diagram
r a
Q Q
r aQ Qr aQ Q
0
1
1
r a
r a
Q Qr
Q Q
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Question: what determines Q factors?
0
1 /1
(1 ) 1 / 2 1 / 2
r
a r
Qr
i Q Q
Coupled-mode analysis on MIM metasurface
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Conditions:
• Subwavelength:
• Thin-slit:
Mode-expansion theory: Analytical results
0,0
(2,1)
(1,2)
0 00 0 0
I II
00 0 0 0 0 0
(3,2)
0 0 0
III I
0,0
(2,3)
III I
I
0 0 0 0
, ,
II
[ ]
[ ]
[ ]
[ ] [ ]
exp( ) exp( ) 0
m m m
m m m m
m
m m z m m z
S a a
S Y Y a a
c c S a a
S Y c c Y a a
c ik h c ik h
Resonance freq. & Q of MIM metasurfaces analytically obtained
d
a d
Ma et al, PRB (2016) to appear
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Re
Im 2a
eff
hdQ
hd d a
Re
m 2If
a
efh d
hd
dQ
a
Re(ε) ∙ hd ∙ E2
Qr factor:
𝒅 ∙ 𝜹 ∙ E2
d−a ∙ 𝜹 ∙ E2
Concrete expressions of Q factors are obtained
Analytical expressions for Q factors
Qa factor: (perturbation)
2
cavity
a
absorb
UQ
P
2
cavity
r
radiat
UQ
P
1, ~E H
h
2
, ~r
U Q E h1
, ~r
U Qh
Total
Energy
Loss
in spacer
Loss
in metal
Re
Im 2a
eff
hdQ
hd d a
0
1,
rQ F a d
k h
Im(ε) ∙ hd ∙ E2
Ma et al, PRB (2016) to appear
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Tailor MIM Metasurface Through Structural/Material Tuning
• Response:
• Qr factor:
• Qa factor:
Re
Im 2a
eff
hdQ
hd d a
0
1,
rQ F a d
k h
0
1 /1
(1 ) 1 / 2 1 / 2
r
a r
Qr
i Q Q
MIM properties
Two Q factors Structure & Materials
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Tailor MIM Metasurfaces via tuning h
Tuning h can dramatically change the property of a metasurface
• Qr factor:
• Qa factor:
Re
Im 2
a
eff
hdQ
hd d a
0
1,
rQ F a d
k h
0
1,
rh
Q F a dk
Re
Im 2
a
eff
h
h
dQ
d d a
Critical parameter
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Tailor MIM metasurfaces via tuning a
• Qr factor:
• Qa factor:
Re
Im 2
a
eff
hdQ
hd d a
0
1,
rQ F a d
k h
0
1,
rQ F d
k ha
Re
Im 2
a
eff
hdQ
hd d a
Critical parameter
Tuning a can change the property of a metasurface
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Tailor MIM Metasurfaces via tuning material loss
• Qr factor:
• Qa factor:
Re
Im 2
a
eff
hdQ
hd d a
0
1,
rQ F a d
k h
2Im
Re
eff
a
hdQ
hd d a
Tune dielectric loss:
Tuning material can dramatically change the property of a metasurface
Gate-controlled graphene :
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Extension to General Situations
• Qr factor:
• Qa factor:
Re
Im 2
a
eff
hdQ
hd d a
0
1,
rQ F a d
k h
0
1
rF sQ
k hhape
Re
Im
metal
a
effS
hdQ
hd
l w
• h increase:
Qr ↓, Qa ↑
• l increase:
Qr ~ C, Qa ↓
• w increase:
Qr ↓, Qa ~C
THz experiments verification:
Tuning can be extended to a general 2D metasurface
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Re-interpreting previous works with our phase diagram
Phase-modulation
Polarization control
Gradient MS
Perfect absorbers
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Conclusions
• Response:
• Qr factor:
• Qa factor:
Re
Im 2
a
eff
hdQ
hd d a
0
1,
rQ F a d
k h
0
1 /1
(1 ) 1 / 2 1 / 2
r
a r
Qr
i Q Q
Guidelines for designing metasurfaces with
desired functionalities: Perfect absorption,
Phase modulation, Active control …
Metal
Spacer
Pattern
Qu et. al, Phys. Rev. Lett. 115, 235503 (2015)
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1) Tailor the functionalities of metasurfaces based on a complete phase diagram
2) Toward full-range phase modulation with gate-controlled graphene metasurfaces
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Background: Why need phase control?
Fermat-Huygens law:
Phase distribution on a certain plane determines the far-field radiation
Refraction, polarization control, hologram …
At the boundary of 2 homogeneous medium
Phase control plays a central role in wave optics !
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How to realize phase control?
Conventional techniques: Gradient-index natural materials or MTMs:
Jin, Y. et al., J Appl. Polym. Sci.
103,1834 (2007)
Larouche, S et al., Nat. Mater (2012).
Bulk effect, difficult for
photonics integration
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Meta-surfaces: full-range phase control in deep-subwavelength regime
Yu, Science (2011).
Anomalous refractions
Vortex generations,
Sun, Nat. Mater. (2012).
PW-SW conversion, high-efficiency, single-mode
Chen, Nano. Lett., (2014)
High-efficiency meta-holograms Sun, Nano Lett. (2012).
Wide-band, optical regime
All these are passive !
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Available active phase modulations
Limited phase modulations far from full-range control,
even enhanced by MTM
Kleine-Ostmann, T. et al., APL (2004).
Modulation depth 3%
Chen et. al, Nat. Photonics (2008)
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Using graphene – an atomic-thin material with great tunability?
Ju, L. et al., Nature Nano. 6,
630-634 (2011)
Lee, S. et al., Nature Mater. 11, 936-941 (2012)
Great tuning capability, loss --- low Q factor
Combined with MTM: Tuning
phase with 32.2 degrees
Far away from full-wave control!
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Our motivations
Realize active and full-range phase control with gate-controlled graphene meta-surface
Active?
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Our structure Graphene + Meta-surface
• Combining Graphene with reflective meta-surface
• Working at THz domain
• The transmission port is blocked --- crucial !
• Top-gating graphene using Ion-Gel
Metallic sheet
/10d
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Graphene identification and TDS-THz measurements
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Amplitude/phase modulation (Expt.) – e-doping
Reference: Spectrum with highest n Essentially featureless
• As voltage increases, reflection amplitudes first decreases to 0, then increases to 1
• Phase behaviors change from a magnetic (~360 variation) to electric (<180) resonance
• Phase modulation covering +/- 180 degrees
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• Symmetrical behaviors compared to e-doping
• Slight asymmetry caused by band-structure deviations
Amplitude/phase modulation (Expt.) -- hole doping
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Full-range active phase control (Expt.)
• Two slightly different pixels lead to full-range phase modulation at a frequency interval
• Previous mechanism can never work, due to intrinsic limitations
E
A
B
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Complete phase diagrams (Expt.) --- different spacers
85um 60um 40um
• Critical point determined by structure geometry
• Some system dose not support critical transition
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• Why can we achieve full-range phase modulation? • Why previous system can not? • What’s the role played by graphene?
Puzzles
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Coupled-mode theory --- a clear & coherent picture
Single port
m0 , ,
d( )
dtm mi ms m m n m n
n
aif a k S
, , , ,
s a
m n m n m n m n mS c S c a
The temporal coupled mode theory (Fan, 2003)
Single resonance
• Different damping parameters yield different phase behaviors!
• Whether or not enclosing origin determines the phase variation range!
0( ) / ( ), r i r ir f f
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Generic phase diagram
Typical behaviors in 3 regions (Reference: gold)
• Under-damped resonator: 360 variation
• Over-damped resonator: < 180 variation
• Critical coupling: Perfect absorber
Tuning the ratio tune the system dramatically /S i
Qu, PRL 115 235503 (2015)
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Role of graphene upon gating (Fitting FDTD with CMT)
Effects of gating graphene:
1) increasing 2) has little effect on 3) drives the system to transit
from an under-damped to an over-damped resonator
Gating graphene beaks the subtle balance between intrinsic and radiation losses!
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Remaining puzzles: 1) Why some of our systems cannot?
2) Why previous systems fail?
Do we have a general design guideline?
40um
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1) Why small-spacer one does not work?
• Smaller d, stronger near-field coupling, higher Q, smaller
• Already in over-damped region even with graphene
• Graphene can only make it even more over-damped, no critical transition
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Double ports
2) Why previous one cannot cover full range?
• Two-ports system has no critical coupling • Always E-resonance, can never be M-type!
Lee, Nature Mater. 11, 936-941 (2012)
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An application: an active polarizer
x
y
Only x polarized wave are modulated strongly
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Tuning the polarization actively
E
32 degrees
Polarization state strongly tuned by gate voltage
Miao et al., Phys. Rev. X 5, 041027 (2015).
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Conclusions
• Based on a complete phase diagram, we can easily tailor the functionalities of MIM metasurfaces.
• Combining graphene with meta-surface, we can realize active full-range phase modulation in deep-subwavelength regime
Qu et. al, Phys. Rev. Lett. 115 235503 (2015)
Miao et al., Phys. Rev. X 5, 041027 (2015)
W. Sun et al., Light: Science & Applications 5, 16003 (2016)
W. Luo, Adv. Opt. Mater., 3 1102 (2015)
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Thanks & Questions?