single and paired photons from many entangled atomsjila 2006 us japan meeting.pdfsingle and paired...
TRANSCRIPT
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Single and paired photonsfrom many entangled atoms
Massachusetts Institute of TechnologyMIT-Harvard Center for Ultracold Atoms
Jonathan Simon Haruka Tanji
James K. Thompson Huanqian Loh
Vladan Vuletic
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Outline• Why single (and paired) photons?
• Conditional single-photon generation: how it works.
• Experimental results:– Conversion of stored quantized spin gratings into single photons;
– Narrowband identical photon generation (Hong-Ou-Mandel test);
– Hong-Ou-Mandel effect with delayed photons: entanglement;
– Interferometry with photon pairs;
– Recovery efficiency and Fock state generation.
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Why single photons?
• Proposed applications in quantum information processing and quantum communication:• Atoms have very long storage time for quantum
states (quantum bits), but are difficult to transport.• Photons are ideal carriers of quantum information,
but are difficult to store.• Coherent mapping between atomic and photonic
qubits is an important building block for quantum information processing.
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Why single photons?
• Proposed applications in quantum information processing and quantum communication:• Single-photon sources would enable quantum
repeaters to extend entanglement and quantum communication over distances longer than the absorption length of optical fibers.Duan, Lukin, Cirac, and Zoller, Nature 414, 413 (2001).
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Why single photons?
• States of definite photon number n (Fock states) are fundamental states in quantum mechanical description of light.
• Fock states are highly non-classical.Applications in sub-shot noise interferometry and precision measurements.
• Single-photon state n=1 is the simplest Fock state, can serve as building block.
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Classical communication
communication channel(optical fiber)
classical signal
eavesdropper
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Secure quantum communication
communication channel
single-photon pulses
eavesdropper
photon missing
Receiver can determine that signal has been corrupted
Single-photon states necessary
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Poissonian photon source: coherent state
Poissonian source:Attenuated laser pulse with low average photon number ⟨p⟩ « 1:p0 ≈ 1 p1 ≈ ⟨p⟩ p2 ≈ ⟨p⟩2/2
Two-photon events can be suppressedby attenuating beam.Is it possible to suppress zero-photon events as well?
⟨p⟩ « 1⟨p⟩ » 1
attenuatorLaser beam weak laser beam
0 1 2
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Desired single-photon source
Desired single-photon source:p0 ≈ 0 p1 ≈ 1 p2 ≈ 0
How to overcome inherent randomness in photon generation?Use single particle or single excitation.How to achieve directional emission?Use collective excitation.
0 1 2
single-photon emitter single-photon detector
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Single three-level (λ) atom emits single photon
|b⟩|r⟩
pump beam
|e⟩single photon
detector
Photon emission on demand.Directionality problem: resonator.
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Single-photon sources with resonators
• Single quantum dots with integrated resonator structures. (Stanford).Suppression of two-photon events relative to Poissonian distribution by factor 50.Broadband photons, collection efficiency to be improved.
Vuckovic et al., Appl. Phys. Lett. 82, 3956 (2003).
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Single-photon sources with resonators• Single atoms strongly coupled to a macroscopic
resonator produce single photons (Caltech, Max-Planck Institute).
• Requires strong coupling regime (probability of emission into resonator must exceed emission into 4π).
McKeever et al., Science 303, 1994 (2004).
Kuhn, Henrich, and Rempe, Phys. Rev. Lett. 89, 067901 (2000).
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Single-photon sources with resonators• Single atoms strongly coupled to a resonator can emit
single narrowband photons into a well-defined direction, but there are severe technical problems:
Resonator finesse F=400,000;Control of atomic position with resolution below optical wavelength;Confinement of atom;Mirror losses.
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Avoiding the strong-coupling regime
• Use many atoms instead to achieve directional emission.Dicke superradiance, proposal byDuan, Lukin, Cirac, Zoller, Nature 414, 413 (2001).
How can we make sample emit into a small solid angle?How can we make many (106) atoms emit exactly one photon?
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Single-photon generation by many
atoms: Semiclassical picture
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Poissonian photon pair and memory= single photon on demand
• A Poissonian generator of photon pairs can serve as a deterministic single photon source if a photon can be stored.
tt0Random generation of
write photon at t0-τDeterministic generation
of read photon at t0
Store read photon for time τ
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Conditional single-photon emission by many atoms
|b⟩|r⟩
writepump
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Random generation of “write” photon
|b⟩|r⟩
write photon
writepump
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Conditional generation of “read” photon
|b⟩|r⟩
read pump
read photon
read photon
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Two-atom transfer can be suppressed
|b⟩|r⟩
writepump “write”
photon
But: if p « 1 then large probability for zero-atom transfer
Suppressed as p2 if transfer probability p « 1
by reducing transfer probability
|e⟩
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Zero-atom transfer can be reduced
|b⟩|r⟩
writepump
If no write photon detected, restore original situation and repeat experiment(Duan, Lukin, Cirac, Zoller).
conditionally|e⟩
Kuzmich, Kimble, Heidelberg groups
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Repeat experiment until successful
|b⟩|r⟩
write photon
writepump
Detection of write photon prepares single-photon source (to be read out at a desired later time).
|e⟩
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Triggered (conditional) single-photon generation from single pumped atom
|b⟩|r⟩
read pump
N-1 atoms1 atom
read photon
N atoms 0 atoms
Why many atoms?
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How to create directional source:
• A single dipole antenna emits dipole pattern.
• An array of dipole antennas can emit in a specific direction.
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Collective emission enables directional source
Sample is in an superposition of states (entangled state):Addition of quantum mechanical amplitudes with correct phases:Single-photon emission writes polarization grating with a single quantized excitation into many-atom system.
Any atom could have emitted, we cannot know which one.
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Collective emission enables directional source
Emitted single write photon writes phased array of dipole antennas (holographic grating)into atomic sample.
write pump
write photon
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Holographic grating with quantized excitations
Emitted single write photon writes phased array of dipole antennas (holographic grating)into atomic sample.
Pump beam Bragg-scatters offthe grating into the detector:directional emission.
read pump
read photon
Grating contains only one excitation (one quantum of atomic spin).
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Holographic grating with quantized excitations
Emitted single write photon writes phased array of dipole antennas (holographic grating)into atomic sample.
Pump beam Bragg-scatters offthe grating into the detector:directional emission.
read pump
read photon
Grating contains only one excitation (one quantum of atomic spin).
Grating disappears after single photon has been emitted: no further Bragg-scattered photons .
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Experimental results:
Near-simultaneous pair generation
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Setup photon pair generation
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Two-photon correlation functions
The two-photon correlation function is the number of coincidences, normalized to the expected number for a Poissonian source.
t
τ
T T
gwr(τ)=⟨nr(τ) nw(0)⟩T / ⟨nw⟩T ⟨nr⟩T
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Correlation functions for classical sourcesThe two-photon correlation function is the number of coincidences, normalized to the expected number for a Poissonian source.Classical autocorrelation functions have gaa ≥ 1:grr = 1 (Poissonian or laser);grr = 2 (Classical field);grr > 2 (intensity noise);grr< 1 sub-poissonian photon source;grr= 0 ideal single-photon source.
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Near-simultaneous photon generation:four-wave mixing at the twin-photon level
Δ
t
Read pump
σ+ read photon (fast)
Write pump
σ− write photon (slow)
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The waveform of the read photon
70
60
50
40
30
20
10
0
g wr(τ
)
250200150100500-50-100
arrival time difference τ [ns]
Resonator linewidth κ/2π = 10 MHzFit parameters:Optical depth Nη = 6.5pump strength Ω/2π = 17 MHz
Write photon observed here
Photon coincidence 60 times as likely as for Poissonian source.
gww
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Quality of the conditional single-photon source1.0
0.8
0.6
0.4
0.2
0.0 con
ditio
nal c
orre
latio
n fu
nctio
n g r
r|w
4 5 6 70.1
2 3 4 5 6 71
2 3 4 5 6 710
bin size T [μs]
conditional (three-photon) measurement prediction from two-photon correlation function
grr|w conditioned on w detection.Perfect single-photon source corresponds to grr|w=0.We observe grr|w=0.04(2)
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Are the write and read photon identical?
Δ
Write pump
Read pump
σ− write photon (slow)
σ+ read photonFast (resonant and collective)
t
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Hong-Ou-Mandel effect for identical photons
non-polarizing beamsplitter
or
Identical photons always emerge together.
or
vv
hh
σ−(τ) σ+(0) = (h-iv)(h+iv) = hh + vv + i(hv-vh)
disappears if τ=0 and photons identical
polarizing beamsplitterσ+
σ−
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Hong-Ou-Mandel dip for identical photons
50
40
30
20
10
0cros
s co
rrela
tion
func
tion
g rl,g
hv
0.20.10.0-0.1-0.2arrival time difference τ [μs]
σ+σ− analysis hv analysis
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Pair correlation function, Hong-Ou-Mandel dip, photon bandwidth and Bell parameter
J. Thompson, J. Simon, H. Loh, and V. Vuletic, Science 303,71 (2006).
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Two-photon interferometry below the shot-noise limit
σ+−σ
hh
vvhh+exp(2ikL)vv
Correlations oscillate twice as fast as single-photon signal
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Two-photon interferometer for simultaneously arriving photons
10
8
6
4
2
0
g wr(0
) for
30
ns b
ins
2001000interferometer phase difference (degrees)
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Hong-Ou-Mandel dip for delayed photons?
or
σ−(τ) σ+(0) = (h-iv)(h+iv) = hh + vv + i(hv-vh)σ+(τ) σ−(0) = (h-iv)(h+iv) = hh + vv - i(hv-vh)
σ−σ++ σ+σ− = hh + vv
Even if the photons arrive at different times.
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Entangled photon pair generation
Δ Δ
…m=-3 m=-2 m=2 m=3
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Two-photon interferometer for photons passing the interferometer separately
9.0
8.0
7.0
6.0
5.0
4.0
3.0
2.0
1.0
0.0
g wr(4
5 ns
) for
30
ns b
ins
2001000interferometer phase difference (degrees)
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Can we make a single-photon Fock state?
Storage and readout of quantized spin grating
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Setup with reduced Doppler effect
BAdjustable delay between write and read processes
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Read efficiency vs. write photon number nw
Why not 100%?
n0 1 20.0
0.5
1.0 pn
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Recovery efficiency at short times
t0 =260 ns
Doppler decoherence, recovery 91% at zero time
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Recovery efficiency with two time constants for standing wave geometry
τ2
τ1
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Recovery efficiency vs. optical depth
Read optical depth
Competition between collective and free-space scattering
Dephasing of collective state during read process due to differential light shifts
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Experimental results with samples in free space
• Lukin group: write/read correlations with many photonsvan der Wal et al., Science 301, 196 (2003);storage and retrieval of a single photon, Eisaman et al., Nature 438, 837 (2005);
• Kimble group: first strongly non-classical light in single-photon regime, Kuzmich et al., Nature 423, 731 (2003);deterministic entanglement, Chou et al., Nature 438, 828 (2006).
• Kuzmich group: probabilistic entanglement, storage and retrieval of a single photon, Chaneliere et al., Nature 438, 833 (2005);enhancement of single-photon generation using feedback, Chaneliere et al., Nature 438, 833 (2005).
• Harris group: pair generation with large rate, Balic et al., PRL 94, 183601 (2005).
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Summary• Generation of single-excitation quantized spin gratings by
detection of one photon• Storage time of spin grating 20 μs due to thermal motion (Doppler
effect)• Conversion of spin grating into photon with 80% efficiency
(intracavity), 65% outside resonator• High-brightness source of indentical photons (103 times brighter
than best parametric downconverter)
• Future work:– Storage of quantum bits (milliseconds to seconds) in optical
lattice– Two, three and four-photon generation on demand
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Correlation functions and ratioRatio G=(gwr)2/(gww grr)G>1 indicates non-classical light
Cross correlation gwr
Autocorrelations gww, grr
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Waveforms of write and read photons
single write photon
unconditional read photon
conditional read photon
Δt0 =20 ns <2/Γ
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Secure quantum communication:no cloning of quantum states
communication channel
single-photon pulses
Eavesdropper cannot copy quantum state without changing it
photon altered
Receiver can determine that signal has been corrupted
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Recovery efficiency of the read photon
0.14
0.12
0.10
0.08
0.06
0.04
0.02
0.00
photon number into detector
1086420bin size T [μs]
2.5
2.0
1.5
1.0
0.5
0.0phot
on n
umbe
r int
o re
sona
tor Uncorrelated
rate
Correlated rate
Observation of the write photon defines t=0.
56(7)% recovery