Quantum Entanglement - Institute for Basic Science · Quantum entanglement in multi-field inflation...

COSMO18 @ IBS, Daejeon 27/8/2018 – 31/8/2018

Quantum Entanglement

in multi-field inflation

Shuntaro Mizuno (YITP)

Nadia Bolis, Tomohiro Fujita, Shinji Mukohyama

arXiv:1805.09448 (accepted by JCAP)

with

Contents Contents

1. Introduction

2. Quantum entanglement multi-field inflation

3. Quantum entanglement in multi-field inflation

4. Conclusions and discussions

(General formalism)

(Concrete model)

Inflation Ade et al `16Constraints from Planck

- Single-field slow-roll inflation is successful phenomenologically

- But it is difficult to specify what is inflaton

New physics ?

Quantum entanglement

・Non-entangled state

pure-state information not lost

If we cannot observe , we must trace out the d.o.f. of

Entanglement entropy in de Sitter space

・Entangled state

mixed-state information lost

Maldacena, Pimentel, `13

Quantum entanglement in multi-field inflation ?

• Action

inflaton spectator

fields’ perturbations in fixed de Sitter background

• Gaussian wave function

Entanglement

Influence of initial state entanglement Albrecht, Bolis, Holman, (ABH) `14

0

switching on entanglement at

Evolution of fields’ perturbations

• Wave function for each mode

• Schrodinger equation for each mode

• ``Initial” condition

constant

0 Bunch-Davies vacuum

Power spectrum of inflaton perturbations

2 5 10 20 50 100

larger entanglement larger oscillation amplitude

tracing out the degrees of freedom

Contents Contents

1. Introduction

2. Quantum entanglement multi-field inflation

3. Quantum entanglement in multi-field inflation

4. Conclusions and discussions

(General formalism)

(Concrete model)

• Action

• Sufficiently late time

• Sufficiently early time

fields’ perturbations in fixed de Sitter background

is diagonalized by another set

We can construct in-vacuum for and out-vacuum for

Quantum entanglement multi-field inflation

In-vacuum seen from late-time observers

• ``Generalized” Bogoliubov transformation

• Relation between in-vacuum state and out-vacuum state

In-vacuum and out-vacuum wave function

• Out-vacuum wave function for each mode

• In-vacuum wave function for each mode

Equivalent description in Schrodinger picture

this reproduces the state considered in ABH

if

Entanglement

Contents Contents

1. Introduction

2. Quantum entanglement multi-field inflation

3. Quantum entanglement in multi-field inflation

4. Conclusions and discussions

(General formalism)

(Concrete model)

Concrete model with kinetic-mixing

• Model

• Action at sufficiently early time 0

Generalized Bogoliubov coefficients from matching condition

Power spectrum of inflaton perturbations

We obtain oscillations from quantum entanglement !!

= 1 entanglement

Contents Contents

1. Introduction

2. Influence of initial state entanglement in inflation

3. Quantum entanglement in multi-field inflation

4. Conclusions and discussions

Conclusions

• It was known that oscillations are produced in the spectrum of

scalar perturbations by an initial entangled state in inflation

• We have clarified the condition for entanglement in inflation

• We have presented a simple concrete model with entanglement

and confirmed the oscillations in the scalar spectrum

Discussions

• Primordial power spectrum?

de Sitter background slow-roll background

• Primordial non-Gaussianity?

inflaton perturbation curvature perturbation

• If oscillations appear also in primordial power spectrum,

can we distinguish this from the ones by other models?

• Other signature of entanglement ?

infinite violation of Bell inequalities Kanno, Soda `17

Assassi, Baumann, Green, McAllister `14

Thank you very much !!