use and abuse of the effective-refractive-index concept in ... · 0.2 0.4 0.6 0.8 1.0 diffuse...
TRANSCRIPT
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Use and abuse of the effective-refractive-index concept
in turbid colloidal systems
Use and abuse of the effective-refractive-index concept
in turbid colloidal systems
Rubén G. Barrera*Instituto de Física,
Benemérita UniversidadAutónoma de Puebla
Rubén G. Barrera*Instituto de Física,
Benemérita UniversidadAutónoma de Puebla
*Permanent address: Instituto de Física, UNAM
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In collaboration with:In collaboration with:
Alejandro Reyes Augusto García
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Felipe Pérez
and withand with
Edahí Gutierrez
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Also,I acknowledge very interesting discussions with:
Luis Mochán Peter HaleviEugenio Méndez
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MotivationMotivation
milk1
1.71n
2n
critical angle
2
1
sin cnn
θ =
states of aggregation 2nδ
internal-reflection configuration
Real time
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QuestionQuestion
What is the index of refraction of milk?
…it is white…and turbid…
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ColloidColloid
Inhomogeneous phasedispersed within ahomogeneous one
colloidal particleshomogeneous phase
DISORDER
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fogliquid aereosolliquidgas
smoke, powdersolid aereosolsolidgas
porous media, opalssolid foamgassolid
milky quartz, …solid emulsionliquidsolid
composites, policrystals, rubys…
solid solsolidsolid
foam, whipped cream…foamgasliquid
oil/water, water/benzeneemulsionliquidliquid
milk, paints, blood, …solsolidliquid
examplesnamedispersephase
continuousphase
Photonic crystals and metamaterials: ordered colloids?
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MeasurementsMeasurements
….inconsistencies…
…reflectance around the critical angle…
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OPTICAL SPECTRUM
400 800λ≤ ≤ nm
coherent(average)
diffuse(fluctuating)
TurbidityTurbidity coherent
turbid
…light scattering…
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Total fieldTotal field E E Eδ= +
3
T
d rV
“on the average”homogeneous and isotropic
ensemble
…probability…
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0.12
a mλ µπ≈
Small particlesSmall particles
averagethe diffuse fieldcan be neglected
2 1aka πλ
=size parameter
i.e. macroscopic electrodynamics
nano…
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effective medium
effective properties
ε
µ
eff
eff
eff
n
ContinuumElectrodynamics
Effective mediumEffective medium
“unrestricted“
Effective-medium theories
Homogenization theories
[ ] , effn optical structural
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Extended effective mediumExtended effective medium
colloid
fluctuations
effective medium
εµ
eff
eff
effn
average
Continuum Electrodynamics
INCOMPLETE !INCOMPLETE !
?
λ µπ
≈ ≈ 0.12
a mBIG
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δ∝ = +22 2Power E E E
Energy conservationEnergy conservation
~ 1ka
0 2 40.0
0.2
0.4
0.6
0.8
1.0
diffuse
coherent
penetration
trans
mitt
ed p
ower
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AttemptsAttemptsMODEL: Random system of identical spheres
vacuum
0kcω
=
0
0
( )
( ) /
µ µε ε ω
ε ω ε
=
=
=
p
p p
a
n
identical
nonmagnetic
local
ε ω ε σ ωω
≡ +0( ) ( )p pi
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van de Hulstvan de Hulst
( )γ = 3
0
32
fk a
⊥ ⊥
⎛ ⎞ ⎛ ⎞⎛ ⎞=⎜ ⎟ ⎜ ⎟⎜ ⎟− ⎝ ⎠⎝ ⎠ ⎝ ⎠
2
1
00
s incikr
s inc
SE EeSikrE E
scattering matrix
= =1 2(0) (0) (0)S S Ssphere
-1 0 1 2 3 4 5 6 7-2.0
-1.5
-1.0
-0.5
0.0
0.5
1.0
1.5
2.0 TiO2/resina = 0.10 µm
dCsca/dΩ
θ
1f dilute
Light scattering by smallparticles (1957)
effnδ
γ= +1 (0)effn i Scomplex
volumefilling
fraction
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0 2 4 6 8 100
0.5
1
1.5
2
2.5
effnf
δ ′′
2 aπλ
van de Hulstvan de Hulst scattering
nS = 1.5
nS = 2.8
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Craig BohrenCraig Bohren
1 (0)effn i Sγ= +
11 ( )effn i Sγ π= +
transmission
reflection
ε γ π
µ γ π
= + +⎡ ⎤⎣ ⎦= + −⎡ ⎤⎣ ⎦
1
1
1 (0) ( )1 (0) ( )
eff
eff
i S Si S S
MAGNETIC ?
Proposition
J. Atmos Sci. 43, 468 (85)
r µ εµ ε−
=+
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( )
γ θµ θθ
ε θ γ θ θ θ
−
+ −
= +
= + −
(1)
2
(1) (1) 2
( )( ) 1cos
( ) 1 2 ( ) ( )tan
TE iieff
iTE
i i i ieff
i S
i S S
θ π θ+ = + −⎡ ⎤⎣ ⎦(1)
11( ) (0) ( 2 )2i iS S S
θ π θ− = − −(1)1( ) (0) ( 2 )i iS S S
MAGNETIC
BOHREN
1
1
1 (0) ( )1 (0) ( )
eff
eff
i S Si S S
ε γ π
µ γ π
= + +⎡ ⎤⎣ ⎦= + −⎡ ⎤⎣ ⎦
Normal incidence
1(0) ( 2 )iS S π θ= −
1TEeffµ = NON-MAGNETIC
Small particles
Comment:…a very unconfortable result…
RG Barrera & A García-ValenzuelaRG Barrera & A García-Valenzuela JOSA A 20, 296 (2003)
COHERENT SCATTERING MODEL
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Our new resultOur new result
IN TURBID COLLOIDAL SYSTEMS THE EFFECTIVE MEDIUM EXISTSBUT ITS ELECTROMAGNETIC RESPONSE IS NONLOCAL
Electromagnetic response
Our new resultOur new result
ˆind effJ Eσ=
GENERALIZED EFFECTIVE CONDUCTIVITY
TOTAL
LINEAR OPERATOR
PRB 75, 184202 (2007)
3( ; ) ( , ; ) ( ; )i n d effJ r r r E r d rω σ ω ω′ ′ ′= ⋅∫
Nonlocal
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local vs nonlocallocal vs nonlocal
ISOLATED SPHERE
( )( ; )
0S
SS
S
r Vr
r Vσ ω
σ ω∈
=∉
⎧⎨⎩
extE
IE
SE
3
( ; ) ( ; ) ( ; )
( , ; ) ( ; )
ω σ ω ω
σ ω ω
=
′ ′ ′= ⋅∫i n d S I
ex tNLS
J r r E r
r r E r d r
NONLOCAL
LOCAL
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30
( , ; )
( ; ) ( ) ( , ; ) ( , ; )
NLS
NLS
r r
U r r r I G r r r r d r
σ ω
ω δ ω σ ω
′ =
⎡ ⎤′ ′ ′′ ′ ′′− + ⋅⎢ ⎥
⎣ ⎦∫
Generalized NL conductivityGeneralized NL conductivity
0 ( ; )ωµ σ ωSi r
( , ; )T r r ω′0 ( , ; )ωµ σ ω′NL
Si r r
T matrix
0 ( , ; )ωµ σ ω′NLSi p p ( , ; )ω′T p p
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Total induced currentTotal induced current
EXCITINGFIELD
,
3, 1 2 1 1
( ; ) ( ; )
; ) ( ; ; ), , ,... , ,...
i nd i nd ii
i e xc ii
NLS i i i N
J r J r
r r E r r r r r r d rr r
ω ω
ω ωσ − +
=
′ ′ ′= − ⋅−
∑
∑∫NONLOCAL
iextE
+
( , )ω≈ ′E r
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Effective-Field ApproximationEffective-Field Approximation
…valid in the dilute regime…
3( ; ) ; ) ( , )( ,i nd ii
NLS iJ r r r E rr r d rω ω ωσ ′ ′= − ′− ⋅∑∫
3( ; ) ; )( , ( , )i nd iNLS i
iJ r r rr r E r d rω ωσ ω′= − ′ ′−∑∫
(| |; )eff r rσ ω′−
GENERALIZED NONLOCAL OHM’S LAW
GENERALIZED NONLOCALCONDUCTIVITY
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ω σ ω ω= ⋅( , ) ( , ) ( , )ind
effJ p p E p
=0NnV
Momentum representationMomentum representation
( , ; )NLS r rσ ω′
FT
( , ; )NLS p pσ ω′ ( , ; )NL
S p p pσ ω′ =
0( , ) ( , ; )NLeff Sp n p p pσ ω σ ω′= =
3 X 3 = 9
3
... i
T
d rV
→ ∫
INTEGRAL EQUATION
NONLOCAL
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LT schemeLT schemehomogeneous and isotropic “on the average”
σ ω σ ω σ ω= + −ˆ ˆ ˆ ˆ( ; ) ( , ) ( , )(1 )L Teff eff effp p pp p pp
ε ω ε σ ωω
= +0( ; ) 1 ( ; )eff effip p
generalized effective nonlocal dielectric function
ε ω( , )Leff p ε ω( , )T
eff p
2
“tradition”
0pa →
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( )ε ω ε ω ε ω= + +2( ) [0] ( )[2]( , ) ( ) ( ) ...L T L T
eff eff effp pa εεε
≡0
Small paSmall pa
→ 0p “LOCAL LIMIT”
NONLOCAL DEPENDENCE
Calculation procedure
Phys. Rev. B, 75, 184202 (2007)
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ResultsResults
( , ) 1T p fε ω = + ∆
( , ) 1T pf
ε ω −= ∆
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4
5
0
-15
-5
-10
0 1 2 3 4 5 6pa
0.83 µm
0.62 µm
0.45 µm
0.30 µm
0.22 µm
λ0
Re[ ( , )] 1 ( 0.1 )Teff p for Ag radius m
fε ω
µ−
=
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(εT(p,ω)/ ε0-1)/f for Ag (radius=0.1µm)
0.03
4
0.2 0.4 0.6 0.8 1.0
3
2
1
0
-1
1.51
0.50.1
0.01pa
λ0[µm]
Re[ ( , )] 1 ( 0.1 )Teff p for Ag radius m
fε ω
µ−
=
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Electromagnetic modesElectromagnetic modes
dispersion relation
ε ω =( , ) 0Leff p
ε ω= 0 ( , )Teffp k p
longitudinal
transverse
′ ′′= +p p ip
effective index of refraction
ω ω= 0( ) ( )Teffp k n
ω( )Lp
ω( )Tp
ε ω= 0 ( , )Teffp k p
0 ( 0; )Teffp k pε ω= →
nonlocal
local
GENEALOGY
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ComparisonsComparisons
Long wavelength approximation
[0]0 ( )effp k ε ω= ε ω= [0]( )effn
0 ( , )Teffp k pε ω=
Exact
local
0
( )( )T
effpn
kωω =
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Quadratic approximation
ε ω ε ω= + +[0] [2] 20 ( ) ( )( ) ...Tp k pa
ε ωε ω
=−
[0]
2 [2]0
( )1 ( ) ( )eff Tn
k a
Light-cone approximation
ε ω= =2 20 0( , )Tp k p k γ= +1 (0)effn i S
nonlocal
nonlocal van de Hulst
ComparisonsComparisons
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Exact
QA
LCA
LWA
0.0 0.2 0.4 0.6 0.8 1.0
1.04
1.03
1.02
1.01
1.0
0.99
λ0[µm]
Re[ ] ( 0.1 & 0.02)effn for Ag radius m fµ= =
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0.0 0.2 0.4 0.6 0.8 1.0
neff for Ag (radius=0.1µm & f =0.02)0.04
0.03
0.02
0.01
λ0[µm]
Exact
QA
LCA
LWA
Im[ ] ( 0.1 & 0.02)effn for Ag radius m fµ= =
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Reflection problemReflection problemnonlocal nature
( , )
( , )
Teff
Leff
p
p
ε ω
ε ω
( )effn ω
( )effn ω cannot be used in local CE (Fresnel’s relations)
translational invariance
( )r rε ′−( ),r rε ′
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AbuseAbuse
( ; )Fresnel vdHi effR nθ
IEMM
0( , )Teff p kε ω=
( )vdHeffn ω
iθLCA
nonlocal nature
Isotropic effective-medium model
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Internal Reflection configurationInternal Reflection configuration
A García-Valenzuela, RG Barrera,C. Sánchez-Pérez, A. Reyes-Coronado,E Méndez, Optics Express, 13, 6723 (2005)
Internal reflectionconfiguration
great sensitivity
TiO2 / water
( )iR θ
( ; )Fresnel vdHi effR nθ
IEMM
milk?
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ComparisonComparison TiO2 / water
Pure water
IEMM
CSM
0 1121.33
aσ
=
=nm
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A. Reyes-Coronado, A García-Valenzuela,C. Sánchez-Pérez, RG BarreraNew Journal of Physics 7 (2005) 89 [1-22]
How to measure neff?How to measure neff?
Use refraction (propagation)
Latex spheres / water
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ComparisonComparison van de HulsteffFit with n
NEXT STEP CBS
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e m schemee m scheme
ε ω ε ω=( , ) ( , )Leff p p
( )µ ω
ε ω ε ω=
− −202
1( , )1 ( , ) ( , )
effT Leff eff
pk p pp
magnetic response !
ind P MJ J J= +
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ResultsResults
( )202
1( , )1 ( , ) ( , )
effT Leff eff
pk p pp
µ ωε ω ε ω
=− −
( )202
1 1 ( , ) ( , )( , )
T Leff eff
eff
k p pp p
ε ω ε ωµ ω
− = − −
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0 1 2 4 5 63pa
0.2
0.4
0.6
0.8
1.0
0.83 µm0.62 µm0.45 µm0.30 µm0.22 µm
λ0
1 1Re 1 ( 0.1 )( , )eff
for Ag radius mf p
µµ ω⎡ ⎤
− =⎢ ⎥⎣ ⎦
OPTICAL MAGNETISM
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ConclusionsConclusions
In turbid colloidal systems the effective index of refraction, due to its nonlocal character, is able to describe the propagation of light, but it cannot describe its reflection
This is important because the naïve use of the effective index of refraction in the calculation of reflection amplitudes has been done many times without too much (intellectual) reflection
There is a nonlocal magnetic response in turbid colloidal systems even when its components are non magnetic (optical magnetism)
We have developed an effective-medium approach to describe the optical properties of turbid colloids in the bulk, that is useful and complimentary to the multiple-scattering approach
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PerspectivesPerspectives
ENERGY TRANSFER
1ˆS E H E Bµ−= × = ×
0 ˆ( ) ( )effp E k n p Bω ω× = ×
ˆ ?S p⋅ =
LEFTHANDED ?
LONGITUDINAL MODES
( , ) 0L pε ω = DO THEY EXIST ?
BULK
PROPAGATING MODES
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Coherent-beam specroscopyCoherent-beam specroscopy
0( )effn λnonlocal
effective-mediumapproach
particle-size distribution
optical properties of thecolloidal particles
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ReflectionReflection
extJ
Coherent beam spectroscopy