quantum entanglement of local operatorsseminar/pdf_2014_kouki/...quantum entanglement of local...
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Quantum Entanglement of Local Operators
Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University
1. Based on arXiv:1401.0539v1 [hep-th] (Phys. Rev. Lett. 112, 111602 (2014)) with Tokiro Numasawa, Tadashi Takayanagi
2. Based on arXiv:1405.5875 [hep-th] (accepted in JHEP)
3. Based on arXiv:1405.5946 [hep-th]
(PTEP 2014 (2014) 9, 093B06 )
with Pawel Caputa, Tadashi Takayanagi
Seminar at Osaka University 2014/11/18
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Introduction
Recently, (Renyi) entanglement entropy ((R)EE) has a center of wide interest in a broad array of theoretical physics.
• It is useful to study the distinctive features of various quantum state in condensed matter physics. (Quantum Order Parameter)
• (Renyi) entanglement entropy is expected to be an important quantity which may shed light on the mechanism behind the AdS/CFT correspond .(Gravity ↔ Entanglement)
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Introduction
Recently, (Renyi) entanglement entropy ((R)EE) has a center of wide interest in a broad array of theoretical physics.
• In the lattice gauge theory, it is expected that entanglement entropy is a new order parameter which helps us study QCD more.
- But entanglement entropy in the gauge theory is ill-defined.
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Introduction
Recently, (Renyi) entanglement entropy ((R)EE) has a center of wide interest in a broad array of theoretical physics.
• In the lattice gauge theory, it is expected that entanglement entropy is a new order parameter which helps us study QCD more.
- But entanglement entropy in the gauge theory is ill-defined.
- It is important to study the properties
of (Renyi) entanglement entropy.
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Introduction
Recently, (Renyi) entanglement entropy ((R)EE) has a center of wide interest in a broad array of theoretical physics.
• In the lattice gauge theory, it is expected that entanglement entropy is a new order parameter which helps us study QCD more.
- But entanglement entropy in the gauge theory is ill-defined.
- In this work, we investigate the time dependent
property of (Renyi) entanglement entropy.
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• Definition of Entanglement Entropy
We divide the total Hilbert space into A and B: .
The reduced density matrix is defined by .
This means the D O F in B are traced out.
The entanglement entropy is defined by von Neumann entropy .
on a certain time slice
A
B
∂A
The Definition of (Renyi) Entanglement Entropy
(Renyi) Entanglement Entropy (REE)
n→1
Entanglement Entropy (EE)
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Contents • Field Theory Side
1. Introduction
2. The Definition of (Renyi) Entanglement Entropy
3. A New Class of Excited State
4. Motivation and Results
5. The Formula for REE for locally excited state
6. The Late Time Value of REE
(Formula and Sum rule)
7. Summary (Up to here) 1. Based on arXiv:1401.0539v1 [hep-th] (Phys. Rev. Lett. 112, 111602 (2014))
2. Based on arXiv:1405.5875 [hep-th]
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A new class of excited states
• We introduce
a new class of excited states.
New excited states:
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A new class of excited states
• We introduce
a new class of excited states.
New excited states:
What’s new?
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A new class of excited state
Quantum Quench: Prepare the ground state for
is not the ground state for
We can investigate the time evolution of (R)EE.
(change parameter)
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A new class of excited state
Quantum Quench: Prepare the ground state for
is not the ground state for
A new class of excited state:
(change parameter)
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A new class of excited state
Quantum Quench: Prepare the ground state for
is not the ground state for
A new class of excited state:
Excitation is milder than that in Quantum Quench.
is finite even for the size of subsystem is infinite.
(change parameter)
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A new class of excited state For example,
In Quantum Quench
: Hamiltonian :Hamiltonian
for massive theory for massless theory
At late time, EE is proportional to l (size of subsystem) . l → ∞, EE → ∞
: ground state for
l
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A new class of excited state For example,
In Quantum Quench
: Hamiltonian :Hamiltonian
for massive theory for massless theory
At late time, EE is proportional to l (size of subsystem) . l → ∞, EE → ∞
: ground state for
In our excited state case
State:
At late time, l → ∞ (R)EE approaches some constant.
l
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A new class of excited state For example,
In Quantum Quench
: Hamiltonian :Hamiltonian
for massive theory for massless theory
At late time, EE is proportional to l (size of subsystem) . l → ∞, EE → ∞
: ground state for
In our excited state case
State:
At late time, l → ∞ (R)EE approaches some constant.
l
Excitation is milder than that in Quantum Quench.
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Motivation Previously, we studied the property of EE for the subsystem whose
size (l) is very small in d+1 CFT.
l << (The Excitation Energy) ,
- d
This temperature is universal. z l
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We study the property of (R)EE for
1. The size of subsystem is infinite.
A half of the total system:
2. A state is defined by acting a local operator
on the ground state:
Motivation
z l
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We study the property of (R)EE for
1. The size of subsystem is infinite.
A half of the total system:
2. A state is defined by acting a local operator
on the ground state:
Motivation
At late time
Some
Constants
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We study the property of (R)EE for
1. The size of subsystem is infinite.
A half of the total system:
2. A state is defined by acting a local operator
on the ground state:
Motivation
At late time
Some
Constants
Unique Behavior
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Results
We compute for a new class of excited states.
for
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Results
We compute for a new class of excited states.
for
At late time
(Renyi) Entanglement Entropies of Local Operators
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Results
We compute for a new class of excited states.
for
At late time
(Renyi) Entanglement Entropies of Local Operators
They measure the D.O.F of operators and characterize the operators from the viewpoint of quantum entanglement.
(not conformal dim.)
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Setup
We consider d+1 dim. QFT.
We prepare a locally excited state:
x 1
t
x = - l 1
t=-t
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Setup
We consider d+1 dim. QFT.
We prepare a locally excited state:
We investigate the time evolution of
(Renyi) entanglement entropies.
We choose a half space ( ) as
subsystem A.
We will compute .
x 1
t
x = - l 1
t=-t
01 x
A B The reduced density matrix
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Setup
We consider d+1 dim. QFT.
We prepare a locally excited state:
We investigate the time evolution of
(Renyi) entanglement entropies.
We choose a half space ( ) as
subsystem A.
We will compute .
x 1
t
x = - l 1
t=-t
01 x
A B
Replica Method !!
The reduced density matrix
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How to compute
1. We compute by path-integral:
2. After that, we perform an analytic continuation to real time.
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In d+1 dim. Euclidean space, the reduced density matrix is given by
.
We would like to focus on the time evolution of the (R)EE.
We define the excess of the (R)EE:
: (R)EE for
: (R)EE for the ground state
Replica Method
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Replica Method In d+1 dim. Euclidean space, the reduced density matrix is given by
.
x 1
B
Configuration on B
Configuration on A
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Replica Method In d+1 dim. Euclidean space, the reduced density matrix is given by
.
x 1
B
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Replica Method In d+1 dim. Euclidean space, the reduced density matrix is given by
.
x 1
B
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Replica Method In d+1 dim. Euclidean space, the reduced density matrix is given by
Introduce a lattice spacing
x 1
B
e e T
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Replica Method In d+1 dim. Euclidean space, the reduced density matrix is given by
Introduce a lattice spacing
e e T
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Replica Method
In d+1 dim. Euclidean space, the reduced density matrix is given by
.
In the path-integral formalism,
: a lattice spacing.
x
1 B
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x 1
B
x 1
B
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x 1
B
x 1
B
Identify
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x 1
B
x 1
B
Identify
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x 1
B
x 1
B
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x 1
B
x 1
B
4 local operators are
inserted on 2-sheeted geometry
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Replica Method
In d+1 dim. Euclidean space, the reduced density matrix is given by
.
In the path-integral formalism,
: a lattice spacing.
Periodicity along θ : 2π→2nπ
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A
τ
X 1
A
τ
X 1
A τ
X 1
: The partition function on
Flat Space
: The partition function on
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A
τ
X 1
A
τ
X 1
A τ
X 1
: The partition function on
Flat Space
: The partition function on
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A
τ
X 1
A
τ
X 1
A τ
X 1
Replica Method
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A
τ
X 1
A
τ
X 1
A τ
X 1 2n-Point Function
on
Replica Method
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A
τ
X 1
A
τ
X 1
A τ
X 1 2n-Point Function
on 2-Point Function
on
Replica Method
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A
τ
X 1
A
τ
X 1
A τ
X 1
Replica Method
This formula holds for any local operators
in general QFT in any dimensions.
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Comment on Analytic Continuation
Analytic continuation:
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Comment on Analytic Continuation
Analytic continuation:
Suppress high energy mode!
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Comment on Analytic Continuation
Analytic continuation:
Suppress high energy mode!
For example :2d CFT, =a primary operator subsystem= finite interval
Internal energy in A
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Comment on Analytic Continuation
Analytic continuation:
Suppress high energy mode!
For example :2d CFT, =a primary operator subsystem= finite interval
Internal energy in A
Conformal dim.
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We study the properties of REE
for locally excited state
when the size of subsystem is infinite.
Motivation
Researches:
1. The time dependence of REE
2. The late time value of REE
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Example
We consider free massless scalar field theory in d+1 dim.
Especially, we focus on that in 4 dim.
We act a local operator on the ground state:
.
We measure the (Renyi)
entanglement entropies at t=0.
x 1
t
x = - l 1
t=-t
A B
Time evolution!!
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Example
Let’s compute for
in 4-dimensional free massless scalar field theory.
Green function:
![Page 55: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/55.jpg)
Example
Green function:
We compute
by using Green function.
After that, we perform
analytic continuation to
real time.
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Example
Green function:
We compute
by using Green function.
After that, we perform
analytic continuation to
real time.
![Page 57: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/57.jpg)
Time Evolution of S A
)2(
t l
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Time Evolution of S A
)2(
t
An entangled pair appears.
Each of pair is included in
the region B.
l
![Page 59: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/59.jpg)
Time Evolution of S A
)2(
t
In this region, two quanta
is included in A and B
respectively .
l
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Time Evolution of S A
)2(
t
In this region, two quanta
is included in A and B
respectively .
Entanglement between quanta can contribute to .
l
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Time Evolution of S A
)2(
t
Subsystem
= a half of the
total space
approaches
Constant!!
l
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Time Evolution of S A
)2(
t l
for approaches constants! ! (log2) We call them the (Renyi) entanglement entropies of operators.
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Entangled Pair Interpretation
We derive for from
the entangled pair interpretation.
We decompose into the left moving mode and
the right moving mode,
In two dimensional CFT, we decompose into the left moving
mode and right moving mode,
Generalize A B
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Entangled Pair Interpretation
We derive for from
the entangled pair interpretation.
We decompose into the left moving mode and
the right moving mode,
At late time, the d o f in the region B can be identified with
the d o f of left moving mode.
A B
![Page 65: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/65.jpg)
Entangled Pair Interpretation
Under this decomposition:
Tracing out
the d.o.f in B
![Page 66: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/66.jpg)
Entangled Pair Interpretation
Under this decomposition:
Tracing out
the d.o.f in B
![Page 67: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/67.jpg)
Entangled Pair Interpretation
Under this decomposition:
Tracing out
the d.o.f in B
![Page 68: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/68.jpg)
Entangled Pair Interpretation
Under this decomposition:
Tracing out
the d.o.f in B They agree with the results which we obtain by the
Replica trick (See My paper!!).
![Page 69: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/69.jpg)
Comments on Result
We defined the (Renyi) entanglement entropies of operators by
the late time values of .
The (Renyi) entanglement entropies of is given by
![Page 70: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/70.jpg)
Generalize Results
We defined the (Renyi) entanglement entropies of operators by
the late time values of .
The (Renyi) entanglement entropies of specific operators ( )
which are composed of single species operator are given by
![Page 71: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/71.jpg)
Generalize Results
We defined the (Renyi) entanglement entropies of operators by
the late time values of .
The (Renyi) entanglement entropies of specific operators ( )
which are composed of single species operator are given by
They characterize the local operators from the viewpoint of
quantum entanglement!!
for any dimension.
![Page 72: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/72.jpg)
Generalize Results
We defined the (Renyi) entanglement entropies of operators by
the late time values of .
The (Renyi) entanglement entropies of specific operators ( )
which are composed of single species operator are given by
for any dimension. Large k,
![Page 73: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/73.jpg)
Other type operators
An excited state is defined by acting a local operator on
the ground state.
is constructed of multispecies operators and .
The second (Renyi) entanglement entropy of is given by
![Page 74: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/74.jpg)
Other type operators
An excited state is defined by acting a local operator on
the ground state.
is constructed of multispecies operators and .
The second (Renyi) entanglement entropy of is given by
depends on spacetime dimension.
Another formula for ?
![Page 75: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/75.jpg)
Sum rule
We act various local operators on the ground state.
A locally excited state is given by .
The late time of is given by
Time ordering Op.
They are given by the sum of the REE for the state defined by acting
each operators on the ground state.
t
x 1
Local operators
![Page 76: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/76.jpg)
Comment on propagators
• After performing analytic continuation, we take ε →0 limit.
Only two diagrams can contribute to .
One diagram ⇔ product of red lines
One diagram ⇔ product of blue lines
![Page 77: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/77.jpg)
Comment on propagators
• After performing analytic continuation, we take ε →0 limit.
We also take late time limit (t>>l).
Red wavy lines and Blue wavy lines are called Dominant Propagators
.
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Summary (Up To Here)
Field Theory Side
• We defined the (Renyi) entanglement entropies of local operators.
-They characterize local operators from the viewpoint of quantum entanglement.
• These entropies of the operators (constructed of single-species operator) are given by the those of binomial distribution.
-The results we obtain in terms of entangled pair agree with the results we obtain by replica method.
• They obey the sum rule.
![Page 79: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/79.jpg)
Contents
• AdS/CFT Correspondence
1. Motivation (from now on)
2. Large N limit in Field Theory Side
3. Holographic computation
4. The Result and Possibility in Gravity
3. Based on arXiv:1405.5946 [hep-th]
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How REE for locally excited state behave
in large N strongly coupled theories ?
Motivation
![Page 81: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/81.jpg)
Field Theory Side
We consider large N free U(N) gauge theory.
We act on the ground state.
,2J
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Field Theory Side
We consider large N free U(N) gauge theory.
We act on the ground state.
N
1n
Diverge!!
,2J
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Field Theory Side
We consider large N free U(N) gauge theory.
We act on the ground state.
N
1n
Finite!!
,2J
![Page 84: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/84.jpg)
Field Theory Side
We consider large N free U(N) gauge theory.
We act on the ground state.
N
1n
Finite!!
,2J
N 1n : Incorrect Limit
N1n : Correct limit
![Page 85: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/85.jpg)
Comment on AdS/CFT correspondence
Field theory
Geodesics x
y
Gravity
Entanglement Entropy (Wilson loop) A
B Minimal Surface
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n-th (Renyi)
Entanglement Entropies in CFT
Comment on the Result In AdS/CFT
d
Field Theory
Entanglement Entropies in CFT d
:
,1
N
n
Finite
We compute. for .
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n-th (Renyi)
Entanglement Entropies in CFT
Comment on the Result In AdS/CFT
d
Field Theory
Entanglement Entropies in CFT d
:
,1
N
n
Finite
We compute. for .
Nontrivial Background
N
n ,1
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n-th (Renyi)
Entanglement Entropies in CFT
Comment on the Result In AdS/CFT
d
Field Theory
Entanglement Entropies in CFT d
:
,1
N
n
Finite
We compute. for .
Nontrivial Background
N
n ,1
Topological Black Hole
in AdS d+1
Gravity
N
n ,1
![Page 89: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/89.jpg)
Gravity Side
We compute
on topological black hole by using geodesic approximation in d+1 dim.
Boundary of topological black hole
Periodicity: Replica number: n
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Asymptotic region
Topological Black Hole
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Topological Black Hole
Map:
Y
T
A B
![Page 92: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/92.jpg)
Topological Black Hole
Map:
Y
T
A B
![Page 93: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/93.jpg)
Topological Black Hole
Map:
Y
T
A B
![Page 94: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/94.jpg)
Large N limit
can contribute to correlation function.
![Page 95: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/95.jpg)
Large N limit
can contribute to correlation function.
At leading order
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Large N limit
can contribute to correlation function.
At leading order
We only need to compute two point function!!
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At Late time At late time (t>>l>>ε),
operators are inserted symmetrically:
n=2
π
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At Late time At late time (t>>l>>ε),
operators are inserted symmetrically:
n=2
Only two diagrams
can contribute to correlation function !!.
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Gravity Side
We compute
on topological black hole by using geodesic approximation in d+1 dim.
At the late time,
Periodicity: Replica number: n
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Gravity Side
We compute
on topological black hole by using geodesic approximation in d+1 dim.
At the late time, Conformal dim. of inserted operator
We can not take n → 1 limit.
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Gravity Side
We compute
on topological black hole by using geodesic approximation in d+1 dim.
At the late time, Conformal dim. of inserted operator
Large N limit,
can not approach
constant.
![Page 102: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/102.jpg)
n-th (Renyi)
Entanglement Entropies in CFT
Comment on the Result In AdS/CFT
d
Field Theory
Entanglement Entropies in CFT d
:
,1
N
n
Finite
We compute. for .
Nontrivial Background
N
n ,1
Topological Black Hole
in AdS d+1
Gravity
N
n ,1
N
n ,1
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Entanglement Entropy
z
x
ε
1
- l
A
Back ground : Falling particle in AdS
We compute holographic
entanglement entropy.
At late time, Large N limit,
can not approach
constant even if n=1.
![Page 104: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/104.jpg)
Entanglement Entropy
z
x
ε
1
- l
A
Back ground : Falling particle in AdS
We compute holographic
entanglement entropy.
At late time, Large N limit,
can not approach
constant even if n=1.
In large N expansion, we are not able to study whether it approach some constant at late time.
![Page 105: Quantum Entanglement of Local Operatorsseminar/pdf_2014_kouki/...Quantum Entanglement of Local Operators Masahiro Nozaki Yukawa Institute for Theoretical Physics (YITP), Kyoto University](https://reader034.vdocuments.us/reader034/viewer/2022051922/601008164a1289616453e1b5/html5/thumbnails/105.jpg)
Possibility
If approaches some constant, it is expected
that is given by
.
The constant value is expected to come from the non-perturbative effect:
.
:Parameters are dependent of n.
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Possibility
If approaches some constant, it is expected
that is given by
.
The constant value is expected to come from the non-perturbative effect:
.
:Parameters are dependent of n. To find whether approaches constant or diverge,
we need the information beyond the large N limit.
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Summary
Field Theory Side
• We defined the (Renyi) entanglement entropies of local operators.
-They characterize local operators from the viewpoint of quantum entanglement.
• These entropies of the operators (constructed of single-species operator) are given by the those of binomial distribution.
-The results we obtain in terms of entangled pair agree with the results we obtain by replica method.
• They obey the sum rule.
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Summary
AdS/CFT correspondence • To take n → 1 limit does not commute with taking N → ∞ limit.
- After taking large N limit, we can not take n → 1 (EE for excited state diverge.).
• In AdS/CFT correspondence, does not approach some constants.
- In large N limit, we are not able to study
whether it can approach some constant or it diverges.
- In large N expansion, the leading contribution of is proportional to
the conformal dim. of operators which act on the ground state.
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Future Problems
• The formula for the operators constructed of multi-species operators: (generally depend on the spacetime dimension).
• The (Renyi) entanglement entropies of operators in the interacting field theory . (also massive and charged Renyi.)
• Beyond large N, we investigate .
- approach constant?
- diverge?