schemes to generate entangled photon pairs via spontaneous...
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Schemes to generate entangled photon pairsvia spontaneous parametric down conversion
Atsushi YabushitaDepartment of Electrophysics
National Chiao-Tung University
?
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Our work
Outline�Introduction
�Optical parametric processes�Opt. param. amplifier (OPA)�Spontaneous param. down conv. (SPDC)
�Application | classical�Broadband generation | for short pulse
�Application | quantum�Entangled photon pairs�Ghost imaging | wave vector�Ghost spectroscopy | frequency�Quantum key distribution (QKD) | polarization�Multiplex QKD | polarization and frequency�Entangled photon beam
�Conclusion
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Our work
Outline�Introduction
�Optical parametric processes�Opt. param. amplifier (OPA)�Spontaneous param. down conv. (SPDC)
�Application | classical�Broadband generation | for short pulse
�Application | quantum�Entangled photon pairs�Ghost imaging | wave vector�Ghost spectroscopy | frequency�Quantum key distribution (QKD) | polarization�Multiplex QKD | polarization and frequency�Entangled photon beam
�Conclusion
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Outline�Introduction | OPA and SPDC
�Light is …�Light-matter interaction�Frequency conversion
•SHG and SPDC•SPDC�OPA•OPA is …?
�Why OPA?�Why SPDC?
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Introduction
Lightgamma-rayX-rayUltravioletvisibleinfraredradio wave
=> Electro-magnetic wave
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Introduction
Light-matter interactionElectric field make dielectric polarization
Emission from dipoleoscillating in vertical directionE : exp(-i�t)E*E : exp(-i2�t)
Second harmonic generation (SHG)using a non-linear crystal
within some limitation from physical law…
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Introductionenergy / momentum conservation in frequency mixing
k2,�
k1,�
BBO crystal�-BaB2O4
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Introduction
Reversible? YES!
Reverse processspontaneous parametric down conversion (SPDC)
2�=>�+�2�=>0.8�+1.2�
2�=>�+�occur by itself
SHG (second harmonic generation)��� 2�
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IntroductionHow does SPDC occur?
similar as OPA (optical parametric amplification)
process | difference frequency generationh�pump-h�signal=h�idler
Energy conservationh�pump=h�signal+h�idler
#signal=#idler
signal
pump
idler
SPDC starts with vacuum noise(no seed for signal)
quite low efficiency ~10-10
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Why SPDC? low conversion efficiencyinteresting character of entanglementnever broken security | quantum communicationeasy to transfer | via optical fiber
Other method?singlet (a pair of spin ½ particle)
Introduction
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IntroductionOPA (optical parametric amplification)
…what is OPA?similar as SPDC, much higher efficiency
process | difference frequency generationh�pump-h�signal=h�idler
Energy conservationh�pump=h�signal+h�idler
Signal(amplified)
pump
idler
seed | w/o amp
pump
seed
signal | amplified
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IntroductionWhy OPA? complicated setup
intense laser at different wavelengthnon-linear spectroscopy in UV/visible/IR…
(ultrafast spectroscopy, Raman for vibration study, …)Other method?
self phase modulation (SPM) | low efficiency
4 0 0 6 0 0 8 0 00
1
2
3
w a v e l e n g t h ( n m )
inte
nsity
(arb
. uni
ts)
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Our work
Outline�Introduction
�Optical parametric processes�Opt. param. amplifier (OPA)�Spontaneous param. down conv. (SPDC)
�Application | classical�Broadband generation | for short pulse
�Application | quantum�Entangled photon pairs�Ghost imaging | wave vector�Ghost spectroscopy | frequency�Quantum key distribution (QKD) | polarization�Multiplex QKD | polarization and frequency�Entangled photon beam
�Conclusion
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Application | classicalBroadband generation | for short pulse
�� 1
��
Shorter pulse needs broader spectrum
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non-degenerate
degenerate
Application | classical
Optical parametric amplifier (OPA) Non-collinear OPA (NOPA)
Broadband generation | for short pulse
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Application | classicalBroadband generation | for short pulse
WLC OPA (OPG with WLC)
Spectrum diffracted by gratingVisible broadband
��� ��� ��� ��� � �� �� �� �����
���
���
���
���
��
����
��
���
���
����
��������������������
����������
������������
������������
pulse width=~9fs
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Our work
Outline�Introduction
�Optical parametric processes�Opt. param. amplifier (OPA)�Spontaneous param. down conv. (SPDC)
�Application | classical�Broadband generation | for short pulse
�Application | quantum�Entangled photon pairs�Ghost imaging | wave vector�Ghost spectroscopy | frequency�Quantum key distribution (QKD) | polarization�Multiplex QKD | polarization and frequency�Entangled photon beam
�Conclusion
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Application | quantumSPDC generates photon pairs (low efficiency)
(2) frequency � p !�� s "�� i
(1) wave vector : k p = k s + k i
correlated parameters
(in case of Type-II crystal)
� isis | � H|VV|H2
1(3) polarization
��p , k p
��s , k s
��i , k iNLC
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Application | quantum
So, what is entanglement?Let’s remind “Young’s double slit”
photon comes one by oneif you block one of the slits…
Are there any other entanglements?
Interference only in unknown casepath entanglement
Interference of “probability”, “wavefunction”different from statistics of classical phenomena=quantum
Yes, we will see them in the following pages!
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quantum lithography | wave vectorbetter resolution ( than classical limit ) ~ �p= �� �
“SPDC photon pairs” v.s. “classical light”
Schematic set-up
Y. Shih, J. Mod. Opt. 49, 2275 (2002)
Application | quantum
])2/2[(cos2 ���b(Young’s : )
half!
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Experimental result (quantum lithograph)
quantum
classical
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Application | quantumghost imaging | wave vector
coincidence count
CC1 CC2 CC3
CC1CC2CC3
BBO
CC1CC2CC3
BBO
CC1CC2CC3
BBO
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Application | quantumghost imaging | wave vector
CC1CC2CC3
BBO
CC1CC2CC3
BBO
CC1CC2CC3
BBOcoincidence count
CC1 CC2 CC3
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��p , k p
��s , k s
��i , k iNLC
Y. Shih, J. Mod. Opt. 49, 2275 (2002)
ghost imagingmeasure the shape of an objectDetector does NOT scan after object
classical
Application | quantum
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ghost spectroscopy | frequency
Application | quantum
CC1CC2CC3
BBOcoincidence count
CC1 CC2 CC3CC1CC2CC3
BBO
CC1CC2CC3
BBO
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CC1CC2CC3
BBO
ghost spectroscopy | frequency
Application | quantum
coincidence count
CC1 CC2 CC3CC1CC2CC3
BBO
CC1CC2CC3
BBO
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S : sample �#�"���$����%�����
experiment setup
L1 : focusing lens(f=100mm, 8mm)
BBO : non-linear crystal
M1 : parabolic mirrorM2,3 : plane mirrorP1 : prism (remove pump)
P2 : prism (compensate angular dispersion)PBS : polarizing beam splitter
G : diffraction grating
L2,3 : fiber coupling lensOF : optical fiber
SPCM : single photoncounting moduleTAC : time-to-amplitudeconverterDelay : delay modulePC : computer
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pump focusing lens (f=100mm)
Spectrum of photon pairs and absorption spectrum of the sample
more absorption in longer wavelength
1. Broadband photon pairs
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result : absorption spectrum
& agree with the result by a spectrometercalculate absorption spectrum from the ratio
1. Broadband photon pairs
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result : absorption spectrum
agree with the result by a spectrometer
1. Broadband photon pairs
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summary of this section
spherical lens & objective lens(f=100 & 8mm)
spectrum was broadened (11,11&63,69nm)Nd3+ -doped glass ( in the idler light path)
& absorption spectrum was measured
without resolving the frequency of photon transmitted through the sample
fit well with the result measured by a spectrometer
spectrum of SPDC photon pairs
coincidence resolving signal light’s frequency
A. Yabushita et. al., Phys. Rev. A 69, 013806 (2004)
1. Broadband photon pairs
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Our work
Outline�Introduction
�Optical parametric processes�Opt. param. amplifier (OPA)�Spontaneous param. down conv. (SPDC)
�Application | classical�Broadband generation | for short pulse
�Application | quantum�Entangled photon pairs�Ghost imaging | wave vector�Ghost spectroscopy | frequency�Quantum key distribution (QKD) | polarization�Multiplex QKD | polarization and frequency�Entangled photon beam
�Conclusion
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Application | quantum
Outline for “Quantum Key Distribution (QKD)”�BB84 protocol | single photon
�how it works�can it be safe?
�E91 protocol | polarization entangled photon pair�polarization entanglement?�how it works�can it be safe?
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0 1
+
�
Application | quantum
�BB84 protocol | single photon�Purpose : to share a secret key�how it works?
•key at random 0 1 0 1 1 0•base at random + � + �� + +
•base at random � � + + � +
0 1 0 0 1 0
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0 1
+
�
Application | quantum
�BB84 protocol | single photon�Purpose : to share a secret key�how it works?
•key at random 0 1 0 1 1 0•base at random + � + �� + +
•base at random � � + + � +
0 1 0 0 1 0
50% of keys can be shared(shared keys are same)
complicated…But secure!How can it be secure??
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0 1
+
�
Application | quantum�BB84 protocol | single photon
�Can it be secure?•key at random 0 1 0 1 1 0•base at random + � + �� + +
•base at random � � + + � +
0 1 1 0 1 1
base? (random try) + � � � + �
0 1 1 1 1 0
0 1 1 1 1 0result(bit)copy
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�BB84 protocol | single photon�Can it be secure?
•key at random 0 1 0 1 1 0•base at random + � + �� + +
•base at random � � + + � +0 1
+
�
Application | quantum
0 1 0 0 1 1
base? (random try) + � � � + �
0 1 1 1 1 0
Error!
Security can be checked!
result(bit)copy
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� 212112 2
1���
� 21212
1��
EPR-Bellsource
Alice
Bob
polarization-entangled photon pairs1. Broadband photon pairs
� ��2
1 � ��2
1
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HV and VH(50%-50%)
Alice
Bob
Mixed state (statistical mixture)1. Broadband photon pairs
?
?
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EPR-pair
QKD example (without Eve)
Baseselect
Baseselect
Alice Bob
H VHV
0 0
1 1
… …If they use the same base,“100%” correlation(quantum key distributed!)
R LRL
0 0
1 1
HV1 1H V0 0
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EPR-pair
QKD example (with Eve)
Baseselect
Baseselect
Alice Bob
H0 VV1 H
… …
VHHV…
?
Eve also share the key (NOT secure QKD…)How can it be improved?
V H1H V0
VH
0
1HV…
10
base/ get/ copy
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EPR-pair
Ekert91 protocol
Baseselect
Baseselect
Alice Bob
H V0 0
LR0 0
VR0 0
V L 01
HL1 1
V H1 1
L R1 1
H R0 1
Base information(classical communication)
“100%” correlation
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EPR-pair
Ekert91 protocol
Baseselect
Baseselect
Alice Bob
V 0
L 0
R 0
V 0
H 1
H 1
L 0
R 1
L1 V
V1 H
H0 V
L1 H
H0 R
R0 L
R0 L
V1 R
V
H
V
H
R
L
L
R
Base information OK
OK
OK
NG!Bob candetect Eve(secure!)
base/ get/ copy
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T. Jennewein et. al., PRL 84, 4729 (2000)
Experimental example of QKD
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Our work
Outline�Introduction
�Optical parametric processes�Opt. param. amplifier (OPA)�Spontaneous param. down conv. (SPDC)
�Application | classical�Broadband generation | for short pulse
�Application | quantum�Entangled photon pairs�Ghost imaging | wave vector�Ghost spectroscopy | frequency�Quantum key distribution (QKD) | polarization�Multiplex QKD | polarization and frequency�Entangled photon beam
�Conclusion
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Generation of photon pairs entangled in their frequencies and polarizations (for WDM-QKD)
BBO(type-II)
2� ��� ��
������frequency-entangled
e o/e
e/opolarization-entangled
polarization-entangled pairat many wavelength combinations
light source for WDM-QKD
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epolarization-entangled
epolarization-entangledo/e
polarization-entangled
polarization-entangledo/e
o/e
o/e
Standard :
Multiplex :
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experimental setup L1 : focusing lensBBO : non-linear crystal
M1 : parabolic mirrorM2,3 : plane mirrorP1 : prism (remove pump)
P2 : prism (compensate angular dispersion)G : diffraction grating
L2,3 : fiber coupling lensOF : optical fiber
SPCM : single photoncounting module
TAC : time-to-amplitudeconverterDelay : delay modulePC : computer
IRIS : iris diaphragms
POL1,2 : linear polarizerBS : non-polarizing beam splitter
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simulationis
iis
HVefVH �� ���
f=1�=0o
0 60 120 180
0.5
1
i (degree)
coin
cide
nce
coun
ts(a
rb.u
nits
)
�
f=1�=60o
f=1�=180o
0 60 120 180
0.5
1
i (degree)
coin
cide
nce
coun
ts(a
rb.u
nits
)
�
0 60 120 180
0.5
1
i (degree)
coin
cide
nce
coun
ts(a
rb.u
nits
)
�
f=1.732�=0o
0 60 120 180
1
2
3
i (degree)co
inci
denc
eco
unts
(arb
.uni
ts)
�
0o
90o
135o 45o
0o
90o
135o45o 0o
90o
135o45o
0o
90o
135o45o
1. Broadband photon pairs
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polarization correlation (1st diffraction@870nm)
phase shift (866nm)< phase shift (870nm)
visibility < 100%
isi
isHVefVH �� ���
17.1 ��f
o180,0��
0o
45o
90o
135o
1. Broadband photon pairs
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polarization correlation (1st diffraction@870nm)
phase shift (866nm)< phase shift (870nm)
visibility<100%
isi
isHVefVH �� ���
17.1 ��fo180,0��
visibility relative phase
0o 0.75
45o 0.43 -25o
135o 0.31 35o
90o 0.50 -81o
0o
45o
90o
135o
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entangled 'iris 1mm(
phase shift (866nm) < phase shift (870nm)
visibility<100% (866nm, 870nm)
17.1 ��f�
o180,0���
no entanglement 'iris open(
to improve : group velocity compensation
but phase shift<45o to improve : walk-off compensation
frequency resolved photon pairs are entangled in polarization(light source for WDM-QKD)future : compensations of walk-off and group velocity (improve pol-entanglement)
A. Yabushita et. al, J. Appl. Phys., 99, 063101 (2006)
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Our work
Outline�Introduction
�Optical parametric processes�Opt. param. amplifier (OPA)�Spontaneous param. down conv. (SPDC)
�Application | classical�Broadband generation | for short pulse
�Application | quantum�Entangled photon pairs�Ghost imaging | wave vector�Ghost spectroscopy | frequency�Quantum key distribution (QKD) | polarization�Multiplex QKD | polarization and frequency�Entangled photon beam
�Conclusion
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Beam-like photon pair generationfor 2photon interference& polarization entanglement
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)*+, (Prof. A. Yabushita)
-./ (Prof. C. W. Luo)
012 (Prof. P. C. Chen)
Department of Electrophysics, National Chiao Tung University
Department of Electrophysics, National Chiao Tung University
Department of Physics, Nation Tsing Hua University3456 (Prof. T. Kobayashi)
Department of Applied Physics and Chemistry and Institute for Laser ScienceThe University of Electro-Communications, Tokyo, Japan
Department of Physics, NTHU
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Acknowledgement for $upport
MOE ATU plan, Taiwan, ROC.
National Science Council, Taiwan, ROC.
NSC 98-2112-M-009-001-MY3, NSC 99-2923-M-009-004-MY3
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SPDC photon image
]HVVH[2
12121 ���
Polarization Entangled photon pair
H: Horizontal
V: vertical
Beam-like photon pair
Crystal optic axisCrystal optic axis
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Main idea (2photon interference)
H
V
BBO
�L
l1’
l2’
l1
l2
BBO
BBO
lP1
lP2
lS1
lS2
lI1
lI2
� S1
� I1
� S2
� I2
� P1
� P2
1
2
pump
FCS
FCI
FCS
FCI
H
V
VH
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Main idea (polarization entanglement)
]H)V(eVH[e2
121
i21
i �� ���
]HVVH[2
12121 ���
H
V H
V
�/4
�/4H
V
adjust phase
VH
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HOM interference measurement(adjust path length)
QWPHWP
Pol.
L1
L3
-150 -100 -50 0 50 100 1500
100
200
300
400
500
600
Coi
ncid
ence
cou
nts
(1/s
)
Delay (�m)
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2photon interferenceby photon pair beams
400nm (�/2)
classical lithographyresolution~ ��
2-photon interference (quantum lithography)2 times higher resolution
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polarization entanglementby photon pair beams
rotate polarization 90 degrees by QWP plates
|H1>|V1>+ei�|H2>|V2>
|V1>|H1>+ei�|H2>|V2>
(max entangle at �=n� )measure coincidence scanning �
visibility = 0.9070.05(highly entangled)
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Our new scheme to generate photon pair beamsfor two purposes
two-photon interferencepolarization entanglement
Our new schemeresolution of 2-photon interference (� �)
2 times higher than classical limit (�)all photon pairs can be polarization entangled
efficient generation of polarization entangled pairscf.) traditional method : only crossing points of light cones
Hsin-Pin Lo et al., Beamlike photon-pair generation for two-photon interferenceand polarization entanglement, Phys. Rev. A 83, 022313 (2011)
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You can find more detail information in this paper.
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Our work
�Introduction�Optical parametric processes
�Opt. param. amplifier (OPA)�Spontaneous param. down conv. (SPDC)
�Application | classical�Broadband generation | for short pulse
�Application | quantum�Entangled photon pairs�Ghost imaging | wave vector�Ghost spectroscopy | frequency�Quantum key distribution (QKD) | polarization�Multiplex QKD | polarization and frequency�Entangled photon beam
on-going in National Chiao-Tung University
Summary
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Thank you for your attention!