gravitational waves from bubble dynamics: beyond the …why single-bubble matters illustration with...
TRANSCRIPT
![Page 1: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/1.jpg)
Gravitational waves from bubble dynamics:Beyond the Envelope
Masahiro Takimoto (WIS, KEK)
Based on arXiv:1605.01403 (PRD95, 024009) & 1707.03111 with Ryusuke Jinno (IBS-CTPU)
Aug.09, TevPa2017
01 / 22
![Page 2: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/2.jpg)
Introduction
![Page 3: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/3.jpg)
ERA OF GRAVITATIONAL WAVES
[LIGO]
First detection of GWs from BH binaries → GW astronomy has started
- Black hole binary 36M⊙ + 29M⊙ →62M⊙
- Frequency ~ 35 to 250 Hz
- Significance > 5.1σ
03
![Page 4: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/4.jpg)
Masahiro Takimoto
Detection of GWs from BH binaries → GW astronomy has started
ERA OF GRAVITATIONAL WAVES
Next will come GW cosmology with space interferometers
First-order phase transitions can be cosmological GW sources
- Electroweak sym. breaking
(w/ extensions)
- B-L breaking - GUT breaking
- PQ sym. breaking
e.g. LISA, DECIGO, BBO, ...
04 / 22
... etc.
![Page 5: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/5.jpg)
How (first order) phase transition occurs- High temperature
false vacuum
- Low temperature
true vacuum
Φ
V
Φ
V
Φ
V
Trapped at symmetry enhanced point
Another extreme appears
Another extreme becomes stable
Time
GRAVITATIONAL WAVESAS A PROBE TO PHASE TRANSITION
05 / 22
![Page 6: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/6.jpg)
Masahiro Takimoto
Thermal first-order phase transition produces GWs in early universe
Quantum tunneling
- Field space - Position space
Bubble formation & GW production
false vacuum true vacuum
Φ
Vreleased energy
GWS AS A PROBE TO PHASE TRANSITION
false
x3
(“nucleation”)true
true
true
06 / 22
![Page 7: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/7.jpg)
Masahiro Takimoto
Thermal first-order phase transition produces GWs in early universe
Quantum tunneling
- Field space - Position space
Bubble formation & GW production
false vacuum true vacuum
Φ
Vreleased energy
GWS AS A PROBE TO PHASE TRANSITION
Bubble wallssource GWs true
true
true
GWs ⇤h ⇠ T
07 / 22
![Page 8: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/8.jpg)
GWs propagates until the present without losing information
because of the Planck-suppressed interaction of gravitions
present
t
propagationGWs
Phase transition& GW production
NO scattering = NO information loss
GRAVITATIONAL WAVESAS A PROBE TO PHASE TRANSITION
08 / 22Masahiro Takimoto
![Page 9: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/9.jpg)
GWs propagates until the present without losing information
because of the Planck-suppressed interaction of gravitions
present
t
propagationGWs
Phase transition& GW production
NO scattering = NO information loss
GWs can be a unique probeto unknown high-energy particle physics
GRAVITATIONAL WAVESAS A PROBE TO PHASE TRANSITION
Masahiro Takimoto 09 / 22
![Page 10: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/10.jpg)
GWs behave as non-interacting radiation after production
Frequency & energy scale correspondence
Present GW frequency ⇄ Energy scale of the Universe @ GW production time
ROUGH SKETCH OF PHASE TRANSITION & GW PRODUCTION
frequency : (redshift)f / a�1 energy density : ⇢GW / a�4
f0 ⇠ 1 Hz⇥✓
�
H
◆✓T
107 GeV
◆�
H⇠ O(101�4)
10
→They are sensitiveto new physics around TeV-PeV range!!
Note: Planed space interferometers are sensitive to (sub) Hz GWs.
/ 22Masahiro Takimoto
![Page 11: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/11.jpg)
Masahiro Takimoto
TALK PLAN
0. Introduction
1. Analytic derivation of the GW spectrum
2. Result
3. Conclusion
✔
11 / 22
![Page 12: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/12.jpg)
1. Analytic derivation of GW spectrum
Masahiro Takimoto 12 / 22
![Page 13: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/13.jpg)
The essence :
[Caprini et al. ‘08]
Ensemble average
2. ANALYTIC DERIVATION OF THE GW SPECTRUM
hTij
(tx
,x)Tkl
(ty
,y)iens
GW spectrum is determined by
ll
Masahiro Takimoto 13 / 22
![Page 14: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/14.jpg)
The essence : GW spectrum is determined by
- Why?
2. ANALYTIC DERIVATION OF THE GW SPECTRUM
hTij
(tx
,x)Tkl
(ty
,y)iens
Formal solution of EOM : ⇤h ⇠ T →
Note : indices omitted below
Energy density of GWs (~ GW spectrum) :
h ⇠Z t
dt0 Green(t, t0)T (t0)
⇢GW(t) ⇠ h ˙h2iens8⇡G
⇠Z
t
dtx
Zt
dty
cos(k(tx
� ty
))hTT iens
same asmassless scalar field
substitute the formal solution
Note : ensemble averagebecause of the stochasticityof the bubbles
Masahiro Takimoto 14 / 22
![Page 15: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/15.jpg)
The essence : GW spectrum is determined by
2. ANALYTIC DERIVATION OF THE GW SPECTRUM
hTij
(tx
,x)Tkl
(ty
,y)iens→We have to specify energy momentum tensor of the system.In thermal phase transition, following 3 ingredients are important.
1. Space-time distribution of the bubbles (nucleation points).
2. Energy momentum profile around bubble.
3. Dynamics after bubble collision.
→Determined by transition rate
→We adopt thin wall approximation. Good for low frequencies.
Envelope approximation is often applied.Beyond envelope!
[Kosowsky, Turner, Watkins, PRD45 (’92)] *Late time GW enhancementwas suggested.*We did a robust estimateof GW spectrum assuming free propagation!
[Hindmarsh et al. ‘14]
Masahiro Takimoto 15 / 22
![Page 16: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/16.jpg)
(tx
,x)
(ty,y)
Estimate of the ensemble average
- Trivial from the definition of ensemble average
hT (tx
,x)T (ty
,y)iens
hT (tx
,x)T (ty
,y)iens = ⌃ Probability for ≠ 0
Value of
in that case×
ll
Probability that bubble walls are passing through(t
x
,x)&(ty
,y)
0
B@
1
CA
0
B@
1
CA
0
B@
1
CA
0
B@
1
CA
T (tx
,x)T (ty
,y)T (t
x
,x)T (ty
,y)
0
B@
1
CA
0
B@
1
CA
2. ANALYTIC DERIVATION OF THE GW SPECTRUM
(P) Probability part (V) Value part
Note: We have fixed behaviour of energy momentum tensor of the system.
Masahiro Takimoto 16 / 22
![Page 17: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/17.jpg)
Masahiro Takimoto
Full expression reduces to only ~10-dim. integration
FULL EXPRESSIONS
A part of the result↓. Calculation is tedious but straightforward.
[Jinno & Takimoto ‘17]
Masahiro Takimoto 17 / 22
![Page 18: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/18.jpg)
Masahiro Takimoto
TALK PLAN
0. Introduction
1. Analytic derivation of the GW spectrum
2. Result
3. Conclusion
✔
✔
Masahiro Takimoto 18 / 22
![Page 19: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/19.jpg)
Masahiro Takimoto
A result
NUMERICAL RESULT
Damping func.
D ~ e - t / τ
after collisionLong duration
Instant disappearance(envelope) [Jinno&Takimoto ‘16]
coincide with [Huber&Konstandin ‘08]
within factor 2
[Jinno & Takimoto ‘17]
tau: sourcing time aftercollision.
Masahiro Takimoto 19 / 22
![Page 20: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/20.jpg)
Masahiro Takimoto
A result
NUMERICAL RESULT
Linear (∝k) behavior
Sourcing moves to low k
Sourcing saturates for fixed k
[Jinno & Takimoto ‘17]
Masahiro Takimoto 20 / 22
![Page 21: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/21.jpg)
Masahiro Takimoto
A result
NUMERICAL RESULT
Linear (∝k) behavior
[Jinno & Takimoto ‘17]
We confirmedenhancement of GWin low frequencies!!
Masahiro Takimoto 21 / 22
![Page 22: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/22.jpg)
Masahiro Takimoto
SUMMARY & FUTURE PROSPECTS
GW spectrum w/ thin-wall has been derived ANALYTICALLY
- General nucleation rate & wall velocity & damping of wall energy
- The huge enhancement compared to the envelope approximation
- Cosmic expansion / Nucl. rate dependence / Wall thickness (w/ truncation?)
Various effects can be implemented
We have obtained GW spectrum in lower frequencies.
22 / 22
Will deepen our understanding on GW sourcing
![Page 23: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/23.jpg)
Back up
![Page 24: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/24.jpg)
GW from gravitational waves are sensitiveto new physics around TeV-PeV range!!
10!4 0.001 0.01 0.1 1 10 100f!Hz"
10!13
10!11
10!9
10!7
"GW
BBODECIGOLISAeLISA
Detector sensitivities
: eLISA: LISA: DECIGO: BBO
★Rough range of GW amplitude
:typical bubble at transition
~radiation fraction today~quadrupole factor
: temp. just after transitionT⇤ : H just after transitionH⇤
⌦GW
= ⇢GW
/⇢tot
-
GWS AS A PROBE TO PHASE TRANSITION
Model dependent parameter
![Page 25: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/25.jpg)
true
scalar+plasmadynamics
wall
pressure
friction
false- Walls (where the scalar field value changes)
want to expand (“pressure”)
- Walls are pushed back by plasma (“friction”)
BEHAVIOR OF SINGLE BUBBLE
Two main players : scalar field & plasma
↵ ⌘ ⇢released⇢rad
⇢Bubble (wall & surrounding plasma) behavior is determined by
: Small energy release↵ . O(0.1)
: Huge energy release↵ & O(0.1)
![Page 26: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/26.jpg)
Understanding until ~ 2016
BEHAVIOR OF SINGLE BUBBLE
friction
pressure
wall
- Plasma friction cannot balance with pressure
- Walls approach the speed of light
- Energy accumulates in walls
- Plasma friction gets balanced with pressure
- Walls approach terminal velocity
- Energy accumulates in plasma bulk motionfriction
pressure
wall
plasma bulk motion
(to experts :
this is detonation case)
cs
→ Terminal velocity: Small energy release↵ . O(0.1)
→ Runaway: Huge energy release↵ & O(0.1)
[e.g. Bodeker & Moore, JCAP 0905 (2009) 009
Espinosa et al., JCAP 1006 (2010) 028]
![Page 27: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/27.jpg)
Understanding from 2017 ~
BEHAVIOR OF SINGLE BUBBLE
- Plasma friction can balance with pressure
- Walls approach high terminal velocity
- Energy accumulates in plasma bulk motion
- Plasma friction gets balanced with pressure
- Walls approach terminal velocity
- Energy accumulates in plasma bulk motion
High-terminal velocity
pressure
wall
plasma bulk motion
friction
pressure
wall
plasma bulk motion
cs
cs
→ Low-terminal velocity: Small energy release↵ . O(0.1)
→ Runaway: Huge energy release↵ & O(0.1)
[Bodeker & Moore ’17]
transitionsplitting
✓ ✓/ �wfriction
![Page 28: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/28.jpg)
true
What happens after collisions?
BEHAVIOR AFTER COLLISION
1. Walls (energetically subdominant)
2. Plasma bulk motion continues to propagate
“sound wave”
3. At late times,
“turbulence”
sound waves develop into nonlinear regime
“bubble collision”
collide and damp soon
![Page 29: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/29.jpg)
true
What happens after collisions?
BEHAVIOR AFTER COLLISION
1. Walls (energetically subdominant)
2. Plasma bulk motion continues to propagate
“sound wave”
3. At late times,
“turbulence”
sound waves develop into nonlinear regime
“bubble collision”
collide and damp soon
(thin-wall)
(envelope)
[Kosowski et al. ‘93]
![Page 30: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/30.jpg)
true
What happens after collisions?
1. Walls (energetically subdominant)
2. Plasma bulk motion continues to propagate
“sound wave”
“bubble collision”
collide and damp soon
�@2t � c2sr2
�ui = 0 ui : fluid velocity field
(1) Dynamics is linear for small energy release :
(2) Width remains to be constant after collision
BEHAVIOR AFTER COLLISION
[Hindmarsh et al. ‘15]
![Page 31: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/31.jpg)
Masahiro Takimoto
Following two exhaust possibilitiesT (x)T (y) 6= 0 [Jinno & Takimoto ‘16]
ONLY TWO CASES
(tx
,x)
(ty,y)
nucleation point
1. single-bubble
2. double-bubble
(tx
,x)
(ty,y)
![Page 32: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/32.jpg)
PHYSICALINTERPRETATION
Small wavenumbers sourced at late times
- Wavenumber k sourced when the typical bubble size grows to ~ 1/k
~ 1/k
GWs with wavenumber k
27
![Page 33: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/33.jpg)
GW sourcing as a function of time
NUMERICAL RESULT
- Single - Double
![Page 34: Gravitational waves from bubble dynamics: Beyond the …WHY SINGLE-BUBBLE MATTERS Illustration with envelope - Two bubble-wall fragments must remain uncollided until they reach x and](https://reader034.vdocuments.site/reader034/viewer/2022051510/6000a3310f3a6b149e3d951b/html5/thumbnails/34.jpg)
WHY SINGLE-BUBBLE MATTERS
Illustration with envelope
- Two bubble-wall fragments
must remain uncollided
until they reach x and y
- Other parts of the bubble
might have collided already
- In this sense, breaking of
spherical sym. is automatically
taken into account