qft dynamics from cft data -...
TRANSCRIPT
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QFT Dynamics from CFT Data
Zuhair U. Khandker University of Illinois, Urbana-Champaign
Boston University
with N. Anand, V. Genest, E. Katz, C. Hussong, M. Walters
Non-Perturbative Methods in Quantum Field Theory, ICTP, Sep 4th 2019
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A new numerical method (“conformal truncation”) to study real-time, infinite-volume dynamics of strongly-coupled QFTs
This talk:
Preface
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Basic Strategy
QFT
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Basic Strategy
QFT
Write QFT as deformation of UV CFT. Use CFT data to organize QFT calculation.
CFT (UV)
QFT (IR)
+X
�iO(relevant)i
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Free Fields Minimal / Integrable Perturbative Supersymmetric Bootstrap-able
e.g.
CFT (UV)
QFT (IR)
+X
�iO(relevant)i
Basic Strategy
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CFT (UV)
QFT (IR)
+X
�iO(relevant)i
UV CFT Data: Δ’s + OPE coefficients
Input
IR QFT Observables: • Spectrum • Correlation Functions (real-time, infinite-volume)
Output
Goal: Extract QFT dynamics from CFT data
Basic Strategy
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Novel Feature of Conformal Truncation
No Wick rotation, no lattice, no compactification
Formulated so that entire computation takes place in real time and infinite volume, allowing access to dynamics
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Novel Feature of Conformal Truncation
No Wick rotation, no lattice, no compactification
Formulated so that entire computation takes place in real time and infinite volume, allowing access to dynamics
Conformal truncation is a specific implementation of Hamiltonian truncation.
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Hamiltonian Truncation
1. Identify a basis of QFT states
2. Write Hamiltonian in chosen basis
3. Truncate in some way
4. Diagonalize numerically
5. Look for convergence w/ truncation level
m1
m2
|b1i, |b2i, |b3i, . . .
H =
0
B@H11 H12 · · ·H21 H22 · · ·...
......
1
CA
evals + evecs
(infinite)
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Hamiltonian Truncation
1. Identify a basis of QFT states
2. Write Hamiltonian in chosen basis
3. Truncate in some way
4. Diagonalize numerically
5. Look for convergence w/ truncation level
m1
m2
|b1i, |b2i, |b3i, . . .
H =
0
B@H11 H12 · · ·H21 H22 · · ·...
......
1
CA
evals + evecs
(infinite)
Heart of any truncation scheme. How to discretize QFT???
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Conformal Truncation Basis
Use UV CFT operators O�(xµ) to construct basis |b1i, |b2i, |b3i, . . .
CFT (UV)
QFT (IR)
+X
�iO(relevant)i
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Conformal Truncation Basis
Use UV CFT operators O�(xµ) to construct basis |b1i, |b2i, |b3i, . . .
0 ⇤2P 21 P 2
2 P 2kmax
· · · P 2
O�(x) �! |�,
~
P , P
2i =Z
d
d
x e
�iP ·x O�(x)|0i
Final basis states
(k = 1, . . . , kmax
)�! |�, ~P , P 2k i
Think: [H, ~P ] = 0.
Note: Still real time and infinite volume
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Truncation Parameters:
0 ⇤2P 21 P 2
2 P 2kmax
· · ·P 2
O�(x) �! |�,
~
P , P
2i =Z
d
d
x e
�iP ·x O�(x)|0i
(k = 1, . . . , kmax
)�! |�, ~P , P 2k i
�max
, kmax
�max
kmax
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Why Truncate in ?�max
Holographic Intuition:
CFTd AdSd+1
O�(x) ! �(x, z) M2AdS ⇠ �2
Large � operators = heavy objects in AdS
(expect to decouple)
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Why Truncate in ?�max
(1+1)d ��4-theoryExperimental Evidence:
µ2
i (�max
) = A+B
(�max
)#1
(�max
)#small parameter: !
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Hamiltonian Matrix Elements
CFT Spectrum �! basis
OPE Coe�cients �! H matrix elements
HQFT = HCFT + �
Zd~xOrel(~x)
h�, P |�H|�0, P 0i = �(~P � ~P 0)
Zddx ddx0 ei(P ·x�P
0·x0) hO(x)Orel(0)O0(x0)i
Fourier transform of CFT 3PFH matrix element
Quantization scheme: Lightcone
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Technology
CFT Spectrum �! basis
OPE Coe�cients �! H matrix elements
1. How to enumerate all primary operators in a CFT (even just free CFT)?
2. How to efficiently compute OPE coefficients (even just free CFT)?
3. How to Fourier transform general-spin CFT 3PFs?specifically, Wightman functions
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Conformal Truncation Deliverables
- Spectrum: bound states, onset of critical behavior, etc.
- Real-time, infinite-volume correlation functions:
hO(x)O(0)i =Z
dµ
2⇢O(µ)
Zd
d
p
(2⇡)de
�ip·x✓(p0)(2⇡)�(p
2 � µ
2)
IO(µ) ⌘Z µ2
0dµ02 ⇢O(µ0)
⇢O(µ)Kallen-Lehmann spectral densitye.g.,
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Conformal Truncation Deliverables
⇢O(µ)Kallen-Lehmann spectral density
µ
IO(µ)
UVIR
Encodes RG
IO(µ) ⌘Z µ2
0dµ02 ⇢O(µ0)
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Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●
●
●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
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Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●
●
●
●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 22: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/22.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●
●
●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 23: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/23.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●●
●
●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 24: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/24.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●●
●
●
●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 25: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/25.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●●
●●
●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 26: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/26.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●●● ●
●●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 27: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/27.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●●● ● ●●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 28: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/28.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●●● ● ●●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 29: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/29.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
� ⌘ �
m2
●●●●●● ● ● ●●
●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
![Page 30: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/30.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
●●●●●●● ● ● ●●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
� ⌘ �
m2
![Page 31: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/31.jpg)
Example: (1+1)d ��4-theory
Tµµ : Spectral Density vs. �
●●●●●●● ● ● ●●
●
●
0 2 4 6 80.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
Δ��� = ��λ� π = ����
� ⌘ �
m2
CFT!
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Convergence�max
▲▲ ▲▲
▲
▲
◆◆◆◆◆ ◆◆
◆
◆
■■■■■■ ■ ■■
■
■
■
●●●●●●●● ●
●
●
●
●
▲ Δ��� = ��
◆ Δ��� = ��
■ Δ��� = ��
● Δ��� = ��
0 2 4 6 8 10 12 140.00
0.05
0.10
0.15
μ� / ��
� +-�������������������������
(@ fixed �)
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Example: (1+1)d ��4-theory
� ⌘ �
m2
�2n : Spectral Density vs. �
●●●●
●●
●
●
●
●
■■■■ ■ ■ ■ ■ ■ ■◆◆◆◆◆ ◆ ◆ ◆ ◆ ◆
● ϕ�
■ ϕ�
◆ ϕ�
0 2 4 6 80.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
μ� / ��
ϕ���������������������������
Δ��� = ��λ� π = ����
![Page 34: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/34.jpg)
Example: (1+1)d ��4-theory
� ⌘ �
m2
�2n : Spectral Density vs. �
●●●●
●●
●
●
●
●
■■■■ ■ ■ ■ ■ ■ ■◆◆◆◆◆ ◆ ◆ ◆ ◆ ◆
● ϕ�
■ ϕ�
◆ ϕ�
0 2 4 6 80.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
μ� / ��
ϕ���������������������������
Δ��� = ��λ� π = ����
![Page 35: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/35.jpg)
Example: (1+1)d ��4-theory
� ⌘ �
m2
�2n : Spectral Density vs. �
●●●●●
●
●
●
●
●
■■■■ ■ ■ ■ ■ ■ ■◆◆◆◆◆ ◆ ◆ ◆ ◆ ◆
● ϕ�
■ ϕ�
◆ ϕ�
0 2 4 6 80.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
μ� / ��
ϕ���������������������������
Δ��� = ��λ� π = ����
![Page 36: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/36.jpg)
Example: (1+1)d ��4-theory
� ⌘ �
m2
�2n : Spectral Density vs. �
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Example: (1+1)d ��4-theory
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Example: (1+1)d ��4-theory
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Example: (1+1)d ��4-theory
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Example: (1+1)d ��4-theory
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Example: (1+1)d ��4-theory
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![Page 45: QFT Dynamics from CFT Data - indico.ictp.itindico.ictp.it/event/8716/session/54/contribution/283/material/slides/... · QFT Dynamics from CFT Data Zuhair U. Khandker University of](https://reader034.vdocuments.us/reader034/viewer/2022052101/603ba13822f8635772627730/html5/thumbnails/45.jpg)
Example: (1+1)d ��4-theory
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Summary of Conformal Truncation
It’s a Hamiltonian truncation method formulated directly in real time and infinite volume, allowing access to nonperturbative dynamics.
Tries to harness small parameter:1
(�max
)#
Input is CFT data. Output is QFT dynamics.