benjamin d. wandelt · benjamin d. wandelt paris, march 19, 2010 theorist's recipe for...
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Cosmic Cosmic Beginnings andBeginnings and
Cosmic FateCosmic Fateou: La révolution non-ou: La révolution non-
GaussienneGaussienne
Benjamin D. WandeltInstitut d'Astrophysique de Paris
Université Pierre et Marie Curie
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Why cosmology?Why cosmology?
The big questions are:The big questions are:
““How did the Universe beginHow did the Universe begin(if it did)?”(if it did)?”
““Whence the laws of Nature?”Whence the laws of Nature?”
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Why cosmology?Why cosmology?
The big questions are:The big questions are:
““What happened at t = 0 ?”What happened at t = 0 ?”
““What is the fundamental theory, What is the fundamental theory, valid at the highest energies?”valid at the highest energies?”
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How do we study what How do we study what happens at the highest happens at the highest
energy scales and at the energy scales and at the shortest time scales?shortest time scales?
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ShowdownShowdown
WMAP, PlanckWMAP, Planck
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Energy and Time scalesEnergy and Time scalesPlanck energy
(Quantum Gravity)
Unification of forces
CERN
...
Everyday energies
Low energies
Planck time 10-42 s
…
…
10-22 s
nanoseconds
seconds
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Will accelerators work?Will accelerators work?Planck energy
(Quantum Gravity)
Unification of forces
CERN
...
Everyday energies
Low energies
Planck time 10-42s
…
…
10-22 s
nanoseconds
seconds
Hard technological limit:Hard technological limit:
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Accelerators are Accelerators are veryvery usefuluseful
� But:But: basically, trying to study physics basically, trying to study physics at the very highest energies in a at the very highest energies in a particle accelerator is particle accelerator is too ambitious.too ambitious.
� It’s brute force.It’s brute force.� It involves creating early Universe It involves creating early Universe
conditions in the lab.conditions in the lab.
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““Can Astronomy do better Can Astronomy do better than accelerators?”than accelerators?”
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Enter: the Cosmic Enter: the Cosmic Microwave Background Microwave Background
(CMB)(CMB)
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What is the What is the Cosmic Microwave Cosmic Microwave Background?Background?
� Before the Universe turned ~380,000 years old, it was hot and dense, a plasma opaque to photons.
� When it cooled to 3000 Kelvin, electrons and protons combined into neutral H atoms and the Universe became transparent (decoupling).
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What is the CMB?What is the CMB?� Photons we see today which interacted Photons we see today which interacted
with matter last at with matter last at decouplingdecoupling make make up the Cosmic Microwave Background up the Cosmic Microwave Background (CMB).(CMB).
� Gravitational potential perturbations in Gravitational potential perturbations in the infant universe cause anisotropies in the infant universe cause anisotropies in the CMB.the CMB.
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So the CMB is the ultimate So the CMB is the ultimate time-capsuletime-capsule
The Universe conveniently The Universe conveniently sent us a baby picture of sent us a baby picture of
itself!itself!
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And here it isAnd here it is
credit: WMAP
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We'd like to probe structure We'd like to probe structure formationformation
� Some quantum mechanical fluctuations, e.g. during inflation, seed potential pertur-bations in a huge, smooth Universe
� How do we get back to these very early times (fractions of a second)?
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Benjamin D. Wandelt Paris, March 19, 2010
Part II of the time machine:
Calculating back from the Cosmic Microwave Background to the primordial perturbations
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Benjamin D. Wandelt Paris, March 19, 2010
Imprinting primordial perturbations
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Benjamin D. Wandelt Paris, March 19, 2010
Reconstructing Primordial Perturbations
Φlm
=Ol a
lm
CMB DATA alm
Reconstructed Primordial perturbations with T alone
r=rdec
SW limit
Response function Ol=βl/Cl
=−3 TT
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Benjamin D. Wandelt Paris, March 19, 2010
The curvature perturbation leaves a unique signature also in the polarization
anisotropies
T and E areout of phase
CMB E
CMB T
Yadav, and Wandelt, PRD (2005)
● Note negative response on large scales
Wiener filter Ol
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Benjamin D. Wandelt Paris, March 19, 2010
Yadav, and Wandelt, PRD (2005)
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Benjamin D. Wandelt Paris, March 19, 2010
Yadav, and Wandelt, PRD (2005)
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Benjamin D. Wandelt Paris, March 19, 2010
Yadav, and Wandelt, PRD (2005) Decoupling
Curvature perturbations
Curvature perturbations at different r
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Benjamin D. Wandelt Paris, March 19, 2010
Curvature perturbations
Tomographic reconstruction of inflationary curvature perturbations from CMB
temperature and polarization.
One can invert the linear radiative transport generating the primordial curvature perturbations .
They contain all the information about the initial scalar seed perturbations in the CMB T&E.
Yadav and Wandelt 2006
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Observational Status and Observational Status and Prospects for the CMBProspects for the CMB
� A major international effort is under way A major international effort is under way to make high quality observations of the to make high quality observations of the microwave sky using ground-based, microwave sky using ground-based, balloon borne and space missions.balloon borne and space missions.
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Observing the CMBObserving the CMB
Penzias and Wilson, Nobel Prize Physics 1978
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1990’s1990’s: : COBE-COBE-DMRDMR
The discovery of primordial fluctuations and the blackbody nature of the CMB
Nobel Prize Physics 2006: Mather and Smoot
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The cosmic The cosmic microwave microwave background background isis blackbody blackbody radiationradiation
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CMB CMB anisotropiesanisotropies as as observed by COBE-DMRobserved by COBE-DMR
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The Wilkinson Microwave The Wilkinson Microwave Anisotropy ProbeAnisotropy Probe
� NASA MIDEX missionNASA MIDEX mission� Currently in OperationCurrently in Operation
– Reached observing Reached observing location (L2) in 2001location (L2) in 2001
– YR1 data released in YR1 data released in early 2003early 2003
– YR3 data released in YR3 data released in 20062006
– YR5 data released in YR5 data released in 20082008
� Harbinger of precision Harbinger of precision cosmologycosmology
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So where do we stand?So where do we stand?
What do we find when we analyze What do we find when we analyze the WMAP, suborbital CMB, and other the WMAP, suborbital CMB, and other astronomical data? And what can we astronomical data? And what can we
expect from Planck?expect from Planck?
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Benjamin D. Wandelt Paris, March 19, 2010
We now have a Standard Model of Cosmology!
● Bad news for theorists:
We now know the basic global properties of the Universe.
● Good news for theorists:
We don't understand most of the constituents of the Universe.We don't know how it began
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Benjamin D. Wandelt Paris, March 19, 2010
Observer's recipe for Universe pie
One delicious Universe:
3 cups dark energy1 cup dark matter
a pinch of baryonic matter for flavor
microwave at 2.7 K
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Benjamin D. Wandelt Paris, March 19, 2010
Theorist's recipe for Universe pie
One inflationary Universe:Use recipe below to make 4-D effective field theory.
Start with smooth patch + GR.Let the field with the largest potential energy inflate
patch while cooling. Reheat.
One 4-D effective theory:Strings? 10 to 11 space-time dimensions.
Compactify to 4or 5 “large” dimensions, to taste.How many branes in the Calabi-Yau? Where?
What causes inflation? Find effective 4-D description...
One inflationary Universe:Use recipe below to make 4-D effective field theory.
Start with smooth patch + GR.Let the field with the largest potential energy inflate
patch while cooling. Reheat.
One 4-D effective theory:Strings? 10 to 11 space-time dimensions.
Compactify to 4or 5 “large” dimensions, to taste.How many branes in the Calabi-Yau? Where?
What causes inflation? Find effective 4-D description...OR
: set
up
p ara
llel
colli
ding
bra
nes.
OR
...
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Benjamin D. Wandelt Paris, March 19, 2010
Theorist's recipe for Universe pie
Dark matter recipes:
One inflationary Universe:Use recipe below to make 4-D effective field theory.
Start with smooth patch + GR.Let the field with the largest potential energy inflate
patch while cooling. Reheat.
One 4-D effective theory:Strings? 10 to 11 space-time dimensions.
Compactify to 4or 5 “large” dimensions, to taste.How many branes in the Calabi-Yau? Where?
What causes inflation? Find effective 4-D description...
One inflationary Universe:Use recipe below to make 4-D effective field theory.
Start with smooth patch + GR.Let the field with the largest potential energy inflate
patch while cooling. Reheat.
One 4-D effective theory:Strings? 10 to 11 space-time dimensions.
Compactify to 4or 5 “large” dimensions, to taste.How many branes in the Calabi-Yau? Where?
What causes inflation? Find effective 4-D description...OR
: set
up
p ara
llel
colli
ding
bra
nes.
OR
...
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Benjamin D. Wandelt Paris, March 19, 2010
Dark energy recipes:
Theorist's recipe for Universe pie
Dark matter recipes:
One inflationary Universe:Use recipe below to make 4-D effective field theory.
Start with smooth patch + GR.Let the field with the largest potential energy inflate
patch while cooling. Reheat.
One 4-D effective theory:Strings? 10 to 11 space-time dimensions.
Compactify to 4or 5 “large” dimensions, to taste.How many branes in the Calabi-Yau? Where?
What causes inflation? Find effective 4-D description...
One inflationary Universe:Use recipe below to make 4-D effective field theory.
Start with smooth patch + GR.Let the field with the largest potential energy inflate
patch while cooling. Reheat.
One 4-D effective theory:Strings? 10 to 11 space-time dimensions.
Compactify to 4or 5 “large” dimensions, to taste.How many branes in the Calabi-Yau? Where?
What causes inflation? Find effective 4-D description...OR
: set
up
p ara
llel
colli
ding
bra
nes.
OR
...
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Benjamin D. Wandelt Paris, March 19, 2010
The Physics of the Beginning
● Why Homogeneity and Isotropy?
● Why Flatness?
● Whence the seed perturbations?
CMB
COBE
George Smoot John C. Mather
1978 Nobel Prizein Physics
WMAP
2006 Nobel Prizein Physics
Robert Wilson and Arno Penzias
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Benjamin D. Wandelt Paris, March 19, 2010
● Is observable universe flat?
● Do the fluctuations have the predicted correlations (nearly scale independent)?
● Are fluctuation adiabatic?
● primordial gravitational waves
● Are fluctuations nearly Gaussian?
Test Std. Inflation Ekpyrosis Obs
● Yes.
● Yes.
● Yes.
● Maybe
● Yes: predicted to be true at 0.001%!
● Yes, to ~2%
● Yes, to few %
● Yes, to ~10%
● ?
● ~2σ hints ofdeviation fromGaussianityfrom WMAPdata
● Built in.
● Yes.
● ?
● No
● Much higher deviations from Gaussianity
The CMB and the Beginning
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Benjamin D. Wandelt Paris, March 19, 2010
Primordial perturbations and Gaussianity
● Slow-roll-> shallow potential-> nearly free field; has Gaussian quantum perturbations (field modes in S.H.O. potential). Theorem for single field.
● If multi-field (or ekpyrosis), can have isocurvature perturbations convert into non-Gaussian curvature pert. outside horizon -> local bispectrum
● Non-standard kinetic term: can inflate in spite of steep potential -> equilateral bispectrum
● Vacuum state – can get flattened triangle contributions if not Bunch-Davies.
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Benjamin D. Wandelt Paris, March 19, 2010
Non-Gaussianity – a new frontier
● In addition to the information to be gained from 2-point correlations, non-Gaussianity opens a new and much richer window on the Physics of the Beginning
● What is the research program?● Reliable theoretical prediction of non-Gaussianity
from models of the early Universe ● Characterization of non-Gaussian confusion effects● Development of efficient and practical statistical
methods to draw inferences about non-Gaussianity from the data.
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Benjamin D. Wandelt Paris, March 19, 2010
x=G x f NLG2 x
fNL – a specific parameterization of non-Gaussianity
Characterizes the amplitude of non-Gaussianity
Salopek & Bond 1990Komatsu & Spergel 2001
● This non-Gaussianity creates a bispectrum signature (as well as higher order moments) <Φ(k1)Φ(k2)Φ(k3)>=2(2π)3fNLδ(k1+k2+k3)P(k1)P(k2),
where (2π)3δ(k1+k2)P(k1)=<Φ(k1)Φ(k2)>
● This translates into a bispectrum signature in the CMB through
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Benjamin D. Wandelt Paris, March 19, 2010
f NL=0
Liguori, Yadav, Hansen, Komatsu, Matarrese, Wandelt 2007
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Benjamin D. Wandelt Paris, March 19, 2010
f NL=101
Liguori, Yadav, Hansen, Komatsu, Matarrese, Wandelt 2007
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Benjamin D. Wandelt Paris, March 19, 2010
f NL=102
Liguori, Yadav, Hansen, Komatsu, Matarrese, Wandelt 2007
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Benjamin D. Wandelt Paris, March 19, 2010
f NL=103
Liguori, Yadav, Hansen, Komatsu, Matarrese, Wandelt 2007
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f NL=104
Liguori, Yadav, Hansen, Komatsu, Matarrese, Wandelt 2007
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Benjamin D. Wandelt Paris, March 19, 2010
Fast Cubic Statistic:
B(r) is a map of reconstructed primordial perturbations
A(r) picks out relevant configurations of the bispectrum
Sprim combines all bispectrum configurations nearly optimally for “local” primordial non-Gaussianity f
NL while avoiding brute force computation of
the bispectrum.
Komatsu, Spergel and Wandelt 2005
Estimating non-Gaussianity
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Benjamin D. Wandelt Paris, March 19, 2010
fNL phenomenology from the CMB bispectrumKomatsu & Spergel 2001 – CMB bispectrum from fNL Verde et al. 2002Komatsu, Wandelt, Spergel, Banday, Gorski 2001 – fNL from COBEKomatsu Spergel & Wandelt 2003 – fast fNL estimatorKomatsu et al (WMAP team) 2003 – WMAP1 analysis using KSWBabich and Zaldarriaga 2004 – temperature + polarization Creminelli, Nicolis, Senatore, Tegmark, Zaldarriaga 2006 – introduce linear term to improve KSW estimator Spergel et al (WMAP team) 2006 – WMAP3 analysis using KSWCreminelli, Senatore, Tegmark, Zaldarriaga 2006 – apply cubic + linear term to WMAP3 dataYadav & Wandelt 2005 – tomography of the curvature perturbationsYadav Komatsu & Wandelt 2007 – KSW generalized to T+PLiguori, Yadav, Hansen, Komatsu, Matarrese, Wandelt 2007 – calibrate YKW estimator against non-Gaussian simulationsYadav, Komatsu, Wandelt, Liguori, Hansen, Matarrese 2007 – Creminelli et al. corrected and generalized to T+PYadav & Wandelt 2007 – application of YKWLHM07 to WMAP3Komatsu et al 2008 – application of YKWLHM07 to WMAP5 Smith, Senatore, Zaldarriaga 2009 – least squares bispectrum estimator, WMAP5[...]
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Benjamin D. Wandelt 50
Benjamin D. Wandelt Paris, March 19, 2010
Fully Bayesian non-Gaussianity analysis● Instead of going via the bispectrum, build full
statistical model of the data, including general local non-Gaussianity, (including cubic perturbation predicted by ekpyrotic model) and a detailed model of the observations
● Returns the full P(fNL|data)
Toy modelToy modelElsner, Wandelt, Schneider 2008Elsner, Wandelt, Schneider 2008
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● Overview of current observational status
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Benjamin D. Wandelt Paris, March 19, 2010
Non-Gaussianity and Planck● Non-Gaussianity with Planck will be a new window on the early
Universe, complementary to the wealth of information in the two-point function.
● Different early Universe models have distinct predictions for the type and amount of non-Gaussianity expected.
● Ekpyrotic/Cyclic models generically predict non-Gaussianity at detectable levels for Planck -50<fNL<200 (Leners&Steinhardt 2008)
● New ekpyrotic models are already being hit by current constraints.
● The search for non-Gaussianity is complementary to the search for primordial gravitational waves
● Primordial B-modes are the “smoking gun” of inflation
● Finding primordial non-Gaussianity would rule out all single-field models of slow-roll inflation
● Planck will improve WMAP fNL error bars by a factor 4.
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Benjamin D. Wandelt Paris, March 19, 2010
Non-Gaussianity and PlanckOne of the lasting impacts of Yadav and Wandelt 2008: search for primordial NG using bispectrum templates is much more robust to systematic error than was previously realized.
● Even though non-Gaussianity is small, the radiation transfer functions give the bispectrum of primordial non-Gaussianity a very different signature from late time secondary effects, foregrounds, or non-Gaussian instrument systematics
● Temperature and Polarization are complementary and can give independent and combined constraints.
● Expect that this robustness will enable the study of primordial non-Gaussianity with Planck.
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Benjamin D. Wandelt Paris, March 19, 2010
Planck's promise for Non-Gaussianity ● Many modes
● large sky coverage
● high resolution
● Frequency coverage● foreground removal
● Polarization
● complementary to T
● adds a great deal of information
● Multiple sky coverages
● control of systematics in time-domain
Yadav, Komatsu and Wandelt, astro-ph/0701921, ApJ (2007)
IdealΔf
NL~1
PlanckΔf
NL~4
note: CV limitedpolarization has more information than T
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The future
ΔfNL~1 is within reach!
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Benjamin D. Wandelt Paris, March 19, 2010
Fully independent probe of local NG from large scale LSS power spectrum
● local non-linear transformation of the potential leaves imprint on large scale correlations of collapsed structures (Dalal et al. 2008, Verde&Matarrese 2008, Slosar et al 2008)
● promises ΔfNL~1 with future very large scale redshift surveys
● requires very careful power spectrum analysis (Jasche, Kitaura Wandelt Ensslin 2009)
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Non-Gaussianity due to “crinkles” in the surface of last scattering● The electron density is not homogeneous –
recombination occurs at slightly different times in different places
→ crinkles in the surface of last scattering
● Perturbations in the free electron density (ionization fraction) can be larger than perturbations in the baryon density by a factor of 5 (Novosyadlyj, MNRAS 2006; Senatore, Tassev, Zaldarriaga arxiv:0812.3652).
● Does this produce non-Gaussianity observable by Planck?
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Crinkles vs. primordial non-Gaussianity give similar but not identical bispectrum
Khatri & Wandelt, PRD 2008Khatri & Wandelt, arxiv:0903.0871
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Crinkles vs. primordial non-Gaussianity give similar but not identical bispectrum
Khatri & Wandelt, PRD 2008Khatri & Wandelt, arxiv:0903.0871
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Crinkles vs. primordial non-Gaussianity give similar but not identical bispectrum
Khatri & Wandelt, PRD 2008Khatri & Wandelt, arxiv:0903.0871
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Benjamin D. Wandelt Paris, March 19, 2010
Crinkles vs. primordial non-Gaussianity give similar but not identical bispectrum
Khatri & Wandelt, PRD 2008Khatri & Wandelt, arxiv:0903.0871
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Benjamin D. Wandelt Paris, March 19, 2010
Can we see non-Gaussianity from Crinkles?
Cosmic variance limited experiment for T only
Khatri & Wandelt, PRD 2008Senatore, Tassev, Zaldarriaga: arXiv:0812.3652/8Khatri & Wandelt, arxiv:0903.0871
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Benjamin D. Wandelt Paris, March 19, 2010
Are crinkles an important “background” for primordial fNL?
Spur
ious
fN
Lfro
m c
rink
les
At the level of fNL~-1 for Temperature
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What about other second-order effects?● Pitrou ,Uzan Bernadeau 2010: full second order
calculation gives fNL~5 with Gaussian primordial fluctuations
● This would mean non-Gaussianity cannot be ignored in analysis of future CMB experiments even if the primordial perturbations are Gaussian
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Benjamin D. Wandelt Paris, March 19, 2010
The Gaussian Universe is dead!
Long live the almost Gaussian Universe!
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The end of the line for cosmological parameters
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Benjamin D. Wandelt Paris, March 19, 2010
The non-Gaussian revolution● The coming decade will be the era of extraction
of information from non-Gaussian sources● probe of primordial non-Gaussianity● secondary anisotropies (lensing)● high precision Large Scale Structure analysis
– dark energy– primordial non-Gaussianity
● This will require new ways of connecting theory with observations
● Will conclude by mentioning a few projects that have clear applications in this direction
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Benjamin D. Wandelt Paris, March 19, 2010
Voids a promising complementary probe of dark energy
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Benjamin D. Wandelt Paris, March 19, 2010
●APPLE: Acceleration through Parallel Precomputation and LEarning.● Developed to enable high precision cosmological
parameter estimation from Planck● Implemented in Pico (Parameters for the
impatient cosmologist) (Fendt and Wandelt 2006,8)
● Planck will produce spectra of such high accuracy that standard methods for extracting cosmological parameters will be either be
– to inaccurate, or
– too slow
● Allows using massively distributed computing for sequential problems
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Benjamin D. Wandelt Paris, March 19, 2010
PICO reduces noise in the likelihood
Higher accuracy leads to less noise in the likelihood.Note this is for WMAP!
It'll be much strongerfor Planck.
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Benjamin D. Wandelt Paris, March 19, 2010
cosmology@home
● Use BOINC platform to enable people everywhere to donate CPU time
● many 1000s of users● 10,000s of CPUs● can generate
training sets veryquickly
● turns homes intocosmology researchcenters worldwide
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Benjamin D. Wandelt Paris, March 19, 2010
PICO application: RICO
● RICO is PICO applied to detailed cosmological recombination physics
● Reduces the main theoretical uncertainty in CMB power spectrum calculations
● Brute force Codes take days to finish for a single run.● We were able to fit n(z) with a few 100 training
samples => running time is now 25ms.● Can now be included in Boltzmann codes.
http://cosmos.astro.uiuc.edu/rico[Fendt et al. 2008]
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Benjamin D. Wandelt Paris, March 19, 2010
Onto the far future
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21cm observations from 21cm observations from the Moon – tests of string the Moon – tests of string
theory?theory?
Cooray 2007
Khatri and Wandelt 2007, 2008
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dalpha/alpha from 21cm
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A scientific future for the A scientific future for the Moon?Moon?
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Benjamin D. Wandelt Paris, March 19, 2010
Conclusions● The non-Gaussian revolution is here
● Non-Gaussian sources of information probe the cosmic beginning and cosmic fate
● Many opportunities for cross-checks between different primordial NG channels: E and T, large scale structure power spectrum, void morphology
● Exciting time ahead for cosmological probes of fundamental physics
● Planck is the Next Big Thing in CMB non-Gaussianity
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Benjamin D. Wandelt 92
Benjamin D. Wandelt Paris, March 19, 2010Fendt and Wandelt 2007, 2008; http://cosmos.astro.uiuc.edu/picoFendt and Wandelt 2007, 2008; http://cosmos.astro.uiuc.edu/pico
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Benjamin D. Wandelt Paris, March 19, 2010
Credits● Many thanks to my current graduate students
– Esfandiar Alizadeh
– Charmaine Armitage
– Rahul Biswas
– Chad Fendt
– Rishi Khatri
– Amit Yadav
– Franz Elsner (external: MPA)
● Senior Thesis student: Scott Kruger● Former group members (cosmos.astro.uiuc.edu)● Artwork: Nikita Sorokin
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The Appendices
Supplementary slides
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Foregrounds?
● Remember – large scale skewness in the Temperature map corresponds to negative fNL .
● The added l modesat 400<l<550correspond to modeswhere positive skewnessalso gives negative contributions.
● At intermediate scalespositive skewness gives positive fNL.
Response Ol
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Filter functions
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Anisotropic noise● Linear weight maps make linear term maximally
anticorrelated with the cubic term to reduce its variance due to anisotropic noise
SSBBBBSSAA
BB
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Q+V+W Channels
V+W channels
giant mask
giant mask
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CMBCMB
Credit: WMAPCredit: WMAP
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● Probes of inflation:– Inflation generates primordial fluctuations in space-time
● Fluctuations in radiation– Cosmic Microwave Background Temperature anisotropies– CMB E-polarization anisotropies
● Fluctuations in matter– Dark matter distribution (Gravitational lensing etc.)– Galaxy and gas distribution (Redshift surveys, Lyman-alpha
clouds, cosmological 21-cm radiation, etc)● Fluctuations in space time itself
– Primordial Gravitational Waves (eg. Primordial B-modes of CMB)
Testing the Inflationary Paradigm
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Instrument systematics? I) Beam asymmetries
● If the CMB is Gaussian, no asymmetry of the main beam can produce non-vanishing bispectrum.
● If there are large side-lobes that spread foreground around the sky they will produce large scale features – unlikely to affect the high l regime. Further, we do not see evidence for frequency dependence.
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Instrument systematics? II: WMAP Noise● Noise correlations (striping)
– As long as noise is Gaussian, no noise correlations will produce a bispectrum.
● Non-Gaussian noise? Analyzed differences of WMAP yearly maps– year1-year2 fNL=1.1 (+/- ~60 at 95% C.L.)
– year2-year3 fNL=1.8
– year1-year3 fNL=-3.4
● So to explain our results an instrumental systematic has to be 1) non-Gaussian, 2) the same in individual years and 3) mimic the specific bispectrum signature of fNL.
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Kp0++Kp0
Kp2Kp12Foregrounds? (I)
We test the impact of foregrounds as a function of frequency and as a function of mask. V and W channels are the least foreground contaminated. Choice of V+W is driven by foreground considerations. Analysis on raw maps to avoid FG oversubtraction.
no frequency dependencestable beyond kp0
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Foregrounds? (II)● WMAP raw maps vs WMAP cleaned maps
– Foreground subtracted maps do not show negative fNL behavior
– Same level of fNL, uniformly higher for FG subtracted maps
– We quote the result from raw maps to be conservative and because the cleaned maps could contain oversubtracted foregrounds giving a positive bias.
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Foregrounds (III)● Simulations ofGaussian CMB + Foregrounds + Simulations ofGaussian CMB + Foregrounds +
WMAP NoiseWMAP Noise– negative for smaller masks– goes to zero by the time you reach Kp0 mask– is consistent with zero for masks greater than kp0
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Secondary Anisotropies?
● Point sources, including SZ– Orthogonal overlap with primordial bispectrum. Bias
of |fNL|<1|. SZ and point sources have opposite signs.
● Serra and Cooray (arxiv:0801.3276)– dominant secondary confusion level to WMAP
bispectrum arises from ● ISW-lensing bispectrum (positive bias)● SZ-lensing bispectrum (negative bias)
– If fNL=20 effective bias around 10%. Negligible for fNL>20, because effects add in quadrature.
X
X
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Re-discovery of another non-Gaussian signal?● Larson/Wandelt (hot and cold spots not hot or
cold enough):– at smaller angular scales
– symmetric-> no odd correlation. Probably noise model.
● The Cold Spot (Vielva et al. 2004) is localized in the map and covers a particular range in scale. Preliminary result: fNL=94 +/-60 (95% C.L.)
● Large Scale anomaly? Can check by removing large scale signal. Preliminary result:
Removing l<21, fNL=135 +/-96 (95% C.L.)
X
X
X
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Sensitivity to assumed cosmology
● The filters depend weakly on assumed cosmology. We used n=1.
● Choosing n=0.95reduces the error barsby 10%, and reducesthe central valuesbetween 5% and 15%.
● At lmax=750, significanceincreases to just over3 sigma; at lower lmax
significance decreases slightly.
350350 450450 550550 650650 75075000
1010
2020
3030
4040
5050
6060
7070
8080
9090
100100
n=0.95n=0.95n=1.00n=1.00
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Noise fluctuation?
● Possible. ● It's a 2.5-3 sigma result. P ≤ 0.01
2.5 sigma for conservative increase of error bar for possible systematics
The most aggressive interpretation of the data would be a 3.3 sigma effect (correcting for negative foreground bias and using best fit WMAP parameters)
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Summary and Conclusions
● ΔfNL
~ 30 for all of WMAP 3 using YKWLHM07 and WMAP
best fit parameters (statistical)● First bispectrum-based analysis of the full WMAP3 data● First significant departure of fNL from 0 at >99% C.L.
● Estimators tested against Gaussian and non-Gaussian simulations with and without inhomogeneous noise
● If any bias, it is likely to be negative. Guess of systematic error bar: -0/+5
● 2.5-2.8 sigma, depending on choices and assumptions
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Conclusion
We wrote:
“If our result holds up to scrutiny and the statistical weight of future data [...] we conclude that single field slow roll inflation is disfavored by the WMAP data.”
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WMAP 5-year analysis● Komatsu et al. 2008● Somewhat more conservative analysis:
– mask shape that enhances the statistical error compared to the 3-yr mask;
– stop at lmax=500
– subtract very generous estimate of point source bias.
● Quoted result: fNLlocal = 51+/- 60 (95%)
● Significance: 1.7 sigma● 2.3 sigma for analysis closer to ours ● Differences understood => Consistent with our
analysis
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WMAP 5 year constraint on fequil
-151<fNLequil < 253
● Of interest for DBI inflation, ghost condensation
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WMAP 5 year continued...
● A very preliminary result by Kendrick Smith et al., obtained at the Perimeter Workshop 4 days ago:
fNLlocal = 21 +/- 44 (95%)
● Note that this uses the exact same data as the WMAP 5, so the difference is entirely due to different weighting in the estimator.– Smaller error bar due to optimal weighting
– This remains to be checked and the differences remain to be understood.