Entanglement and Holographyresearch.ipmu.jp/seminar/sysimg/seminar/1209.pdf · Entanglement and...
Transcript of Entanglement and Holographyresearch.ipmu.jp/seminar/sysimg/seminar/1209.pdf · Entanglement and...
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Entanglement and Holography
Andreas Karch (University of Washington)
1
work with Han-Chih Chang, Kristan Jensen,
Brandon Robinson and Christoph Uhlemann.
talk at IPMU, June 19 2014
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What is Entanglement?
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What is an entangled state?
3
|𝜓 =
Single particle wavefunctions are superpositions:
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State for two spins: Product State
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|𝜓 = | ↑ + | ↓ | ↑ + | ↓
State of particle 1
State of particle 2
Particle 1 is 50/50 up or down, so is particle 2.
Probabilities are independent.
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State for two spins: Entangled State
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|𝜓 = | ↑ | ↑ + | ↓ | ↓
Particle 1 is 50/50 up or down, so is particle 2.
But they always point in the same direction.
One particle measurement undetermined;
Two particle measurement correlated.
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What is Entanglement?
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It’s easy to recognize entangled wavefunction.
But wavefunction can not be directly observed.
“Entanglement = Quantum Correlation”
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Entanglement as Correlation
7
For
one obtains
not possible in
any single particle state
Single Particle Measurement completely uncertain.
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Entanglement as Correlation
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For
one obtains
perfect correlation
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Entanglement as Correlation
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Observable measuring entanglement
are the disconnected correlation functions
for any pair of operators in subsystem A and B.
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Entanglement and
Spacetime
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Entanglement in a local QFT
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A B
In a local quantum field theory we can identify
Subsystems A and B by their location in space.
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Entanglement is short range
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𝑨 𝑨
a 𝑆𝐸𝐸~𝐴𝑟𝑒𝑎
𝑎2 nearest neighbor pairs
strongly entangled.
Clear Indication: Entanglement Entropy
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Entanglement defines distance!
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A B
In vacuum modes of the electromagnetic
field in nearby regions A and B are entangled!
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Entanglement defines distance!
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A B
𝑂𝐴𝑂𝐵 ~1𝑥
x
Entanglement decreases
with distance!
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Entanglement defines distance!
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A B
Metal plate (Dirichlet bc) disentangles the modes.
A and B are “disconnected”.
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Entanglement = Connectedness
16 3 atoms in 3 traps; disconnected.
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Entanglement = Connectedness
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Entanglement “connects” the three into a line!
Entanglement defines notion of distance!
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Entanglement and
Holography
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Emergent Dimensions
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These ideas can be made very concrete
in holography.
• Correlations are given by classical
propagators. Finite Correlation
implies finite spatial distance.
• Entanglement encodes bulk geometry
(van Raamsdonk)
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AdS/CFT = Classical Bulk
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OA OB
classical bulk
Green’s function finite correlation
only possible for finite distance!
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AdS/CFT = Classical Bulk
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OA OB
classical bulk
Green’s function finite correlation
only possible for finite distance!
interacting
free
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Example: 2 copies of a QFT
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hard walls
No Entanglement
Product State
QFT1 QFT2
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Example: 2 copies of a QFT
23
Entangled state
(Thermofield Double)
Even though the two
QFTs are decoupled,
we can still consider
entangled states!
• Tracing over QFT1 gives thermal density matrix for QFT2
• Used for “real time” finite temperature calculations.
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Example: 2 copies of a QFT
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Entangled state
(Thermofield Double)
Holographic dual: Eternal AdS black hole (Maldacena)
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Example: 2 copies of a QFT
Entangled state
(Thermofield Double)
QFT1
QFT2
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Example: 2 copies of a QFT
Entangled state
(Thermofield Double)
These two regions encode the correlation
implied by the entanglement between the
two QFTs.
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Entanglement defines Distance
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“space” static. or no space.
abstract quantum system.
here, e.g: 2d space
gravity
3d space and time are
emergent concepts
=earth
=moon
Entangled!
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The EPR pair
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The EPR pair.
29
Extreme example of entanglement: EPR pair
E.g.: anti-quark quark
pair created in
background electric field
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The EPR pair:
30
spin 0 in initial state
We all know how to write the EPR wavefunction:
|Ψ > = 1
2 | ↑↓> −| ↓↑>
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Two particle correlation
31
< 𝑆(1) ∙ 𝑆 2 > = −1
100% likelihood for spins to point
in opposite directions!
• this is an equal time correlator
• in EPR pair this is non-zero despite of lack
of causal contact.
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Operational definition EPR pair.
32
From now on we define an EPR pair to be
an entangled pair not in causal contact.
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Holographic EPR pair
33
EPR pair = non-vanishing correlators,
but no causal contact.
(Holography): Finite spatial distance between
the two points in the bulk, but no
causal contact.
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Holographic EPR pair
34
EPR pair = non-vanishing correlators,
but no causal contact.
(Holography): Finite spatial distance between
the two points in the bulk, but no
causal contact.
This defines an ER bridge / wormhole!
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ER=EPR
35
So almost by definition, the holographic dual
of an EPR pair is a non-traversible ER wormhole.
(Maldacena-Susskind)
(MS make slightly stronger statement. EPR=ER.
Crisp statement: ER and EPR give rise to identical
physical consequences = correlators)
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The ER Bridge
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Einstein-Rosen Bridge
37
wormhole
(could be a few kilometers)
millions of lightyears
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Einstein-Rosen Bridge
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millions of lightyears
black hole
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Einstein-Rosen Bridge
39
distance (through wormhole) just
a couple of kilometers
(finite spatial distance)
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Einstein-Rosen Bridge
40
Alice can send signal into wormhole,
but signal can’t reach Bob.
(Causally disconnected).
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Einstein-Rosen Bridge
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But if both jump into their respective
black hole, they can easily meet
(but never come back out)
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Example: Eternal Black Hole
42
Think of this is describing two far away entangled black holes
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Example: Eternal Black Hole
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no causal contact between the two asymptotic regions…
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Example: Eternal Black Hole
44
… but finite spatial distance.
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Holographic EPR pair
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Example: holographic EPR
46 46
anti-quark quark
pair created in
background electric field
We can do this in N=4 SYM.
What is the holographic dual?
(Jensen-AK)
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Holographic EPR
47
(Xiao)
Worldsheet = ER bridge (finite distance, no causal connection)
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Holographic EPR: geodesics
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SEE for the holographic EPR pair
49
A B
𝑆𝐸𝐸 = 𝜆3
Finally: calculate EE for a probe brane!
quark not just a single parton, 𝝀 gluons part of quasi-particle
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Generalizations
• Including Dynamical Gravity
• Holographic Hawking Pairs
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1) Dynamical Gravity via RS
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Bottom Line: No Change
52
RS-holography:
CFT with UV cutoff a
+ dynamical gravity with
GN induced by matter loops =
Brane located at fixed radial
position; 5d fluctuations induce
a localized 4d mode.
Only change: Horizon disappears when
q-qbar separation is less than a.
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2) Hawking Pairs
53
AdS/CFT allows us to study the CFT
on any background metric g0
g0 sets the near boundary behavior of the bulk
metric. Need to solve Einstein equations with that
boundary behavior (Fefferman-Graham).
If we chose g0 to be a black hole, we can study
a Hawking pair (= EPR pair separated by horizon).
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Hawking Radiation:
54
Quark in flavored
N=4 SYM.
What’s the holographic
dual to a Hawking pair?
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N=4 on Schwarzschild Black Hole
55
Black String
Metric
(Chamblin, Hawking, Reall)
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N=4 on Schwarzschild Black Hole
56
Thin String subject
to Gregory-Laflamme
Instability!
Only Stable with
IR cut-off (hard wall).
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Unstable vacuum on BH
57
The unstable state can still be studied.
Puzzle: No Hawking radiation!
𝑇𝜇𝜈 = 0
Potential Resolution:
at strong coupling, only color neutral
Hawking radiation! (Fitzpatrick, Randall, Wiseman)
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Sharpening the Puzzle
58
Or maybe we just shouldn’t over-interpret
the unstable state?
Puzzle can be sharpened:
Black String for AdS4-black hole is stable!
Still no Hawking Radiation.
(Chamblin, AK; Gregory, Ross, Zegers)
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AdS4 Black String Metric
59
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Hawking pair dual to ER
60
All our strings for all time
cross the bulk horizon through the
bifurcation point, they inherit
the causal structure of the bulk ER bridge.
Worldsheet metric = ER bridge.
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And Confinement!
61
At strong coupling no
colored Hawking radiation!
Linear with slope 𝝀
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And Confinement!
62
At strong coupling no
colored Hawking radiation!
(at weak coupling there is!)
𝑒−𝑐 𝜆 suppression
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Conclusions
63
ER=EPR true almost by definition.
The holographic dual of an EPR pair
has to have the geometric structure
of an ER bridge.
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Conclusions
64
Bigger insight: Entanglement encodes
Geometry holographically.
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Conclusions
65
Can study consequences of Entanglement
in strongly coupled systems.
E.g: Is the ridge in heavy ion collisions
related to entanglement?
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Conclusions
66
Side Benefit:
Absence of Hawking radiation in
strongly coupled mSYM indeed due
to confinement!
Fitzpatrick, Randall, Wiseman were right!