Study of dense QCD matter and its application to · Study of dense QCD matter. and its application...
Transcript of Study of dense QCD matter and its application to · Study of dense QCD matter. and its application...
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Study of dense QCD matterand its application to
physics of compact stars
Motoi Tachibana (Saga U.)
Kavli IPMU MS Seminar
-The 2nd densest object in the Universe-
2015, July 6th
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Topics1. Study of dense QCD matter
Ginzburg-Landau analysis [work w/ T. Hatsuda, N. Yamamoto, G. Baym:
A. Schmitt and S. Stetina: M. Ruggieri]Gauge/Gravity duality approach
[work w/ K. Ghoroku, M. Ishihara, K. Kubo,T. Taminato and F. Toyoda]
2. Astrophysical applicationsDark matter capture in neutron stars
[in progress w/ T. Hatsuda: Y. Sanematsu]
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Interesting connectionbetween
matters and universe
Dense matter and Compact StarsHarmony of particle, astro-, and condensed matter physics
Physics Orchestra !
Dense QCD matter and Neutron Stars
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Basic profile of Neutron Star
(Typical) radius:
(Typical) mass:
Temperature:
Magnetic field:Rotation period:
M : solar mass Earth’s B field ~ 0.6G 1eV ~ 10 K4SUN
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Major questions
How particle physics comes into this business?
1. How to be born and evolve?2. Why so compact?3. How it cools down?4. Why so huge magnetic field?5. Why so rapidly rotating?
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Theorist’s view of NS structures
① Atmosphere: hydrogen, a mix ofheavy elements
(providing info. of temperature)
② Envelope: a few tens of meters(acts as a thermal insulator)
③ Crust: 500-1000m thickness
④ Nuclear Pasta: In-btw crust/core
⑤ Outer Core: a few kilometers
⑥ Inner Core: Big question mark!
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Nuclear “Pasta”
SpaghettiMeat ball Lasagna
anti-Spaghetti Swiss cheese
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Yes! We love Exotica!
New states of matter present in NS !
Quantitative differences among them?
Superfluid neutron/Supercond. ProtonBose-Einstein condensate (BEC) of mesonsHyperons (hadrons w/ strangeness)Deconfined quarks
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Study of QCD matter
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Grand Challenge- Space-time evolution of QCD matter -
The answer to the ultimate question “Why the matter of our universe can be stable?”
Neutron/quark star SupernovaeEarly universe
Nuclear forceNucleons
NucleiHadrons
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QCD Lagrangian(Han-Nambu, 1965)
Simple, but very fertile in physics and math.Providing testing field for any new idea.
Unsolved problems (inexhaustible spring)
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energy scale κ (GeV)
α s(κ
)
τ width
Υ decay
DIS
e+e-
Basic properties of QCD ■ Asymptotic freedom (Gross-Politzer-Wilczek, 1973)
“QCD coupling gets weaker as the energy grows”
Couplingconstant
ColorConfinement
Asymptotic freedom
short distancelong distance
D. Gross H. Politzer F. Wilczek
(2004, Nobel Prize)
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classical QCD symmetry (m=0)
Quantum QCD vacuum (m=0) Chiral condensate :
spontaneous mass generationAxial anomaly :
quantum violation of U(1)A
Chiral basis :
QCD Lagrangian :
■Symmetries in QCD and their breaking pattern
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Origin of masses Structure of the vacuum
WMAP, Planck
Cosmological constantEinstein (1917)
Universe
baryons
RHIC, LHC
“Chiral” condensateNambu (1960)
baryon
quark
LHC, ILC
“Higgs” condensateAnderson (1963)Englert-Brout, Higgs (1964)
quark
barequark
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Confinement of quarks/gluons (Origin of us)
Chiral symmetry breaking (Origin of mass)
Strong coupling nature of QCD vacuum
Moreover recently physics of quarks/gluons at
moderate temperature/density has been intensively investigated, indicating the created matter is yet strongly-interacting(e.g., QCD equation of state, shear viscosity)
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Content
§1. Introduction
§2. QCD at finite baryon density
§3. Ginzburg-Landau study in dense QCD
§4. Astrophysical application
§5. Summary
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[ Collins-Perry (1975) ]
QCD@high temperature(T )/density(ρ)
QCD vacuum undergoes a phase change at some values of T and ρ!
μ
T
Quark-gluon plasma (QGP)
HadronColor superconductor
(CSC)
“Conjectured phase diagram” Each phase characterized by
chiral condensate
diquark condensate
”order parameters”
RHICLHC
NS
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Dense QCD: Why so difficult ?
1. Lattice QCD: toughViolation of the positivity of the action (sign problem)
2. Experiment: hard Entropy production brings us to higher temperature regime
3. Supersymmetry: hopelessNuclear world would be a very different place with bosonic quarks
4. Quantum phase transition: richEntanglement among different orders
Effective models & NS observations !!As some trial, seeN. Maru and M. Tachibana,
“Color superconductivity from Supersymmetry”, hep-ph/0411079
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QGP (quark-gluon plasma)
CSC (color superconductivity)Hadronic NG(Nambu-Goldstone)
~200 MeV
~1 GeV
Barducci-Casalbuoni-De Curtis-Gatto-Pettini(‘89)Asakawa-Yazaki(’89)
A possible phase diagram (via Occam’s razor)
Terra Firma
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χSBCSC
QGP
1. Competition between different orders2. Strong coupling
Common features in QCD, HTS, and ultracold atoms
Similarity between QCD and High Tc Superconductor
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Content
§1. Introduction
§2. QCD at finite baryon density
§3. Ginzburg-Landau study in dense QCD
§4. Astrophysical application
§5. Summary
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Ginzburg-Landau (GL) analysis
Ginzburg-Landau = Saddle point approximationWilson = Fluctuations by renormalization group method
: Order parameter field
Same symmetry with underlying theory K = {T, m, μ, … } : External parameters
Recipe
Ginzburg-Landau (GL) approach : model independent, analytic1. Topological structure of the phase diagram2. Order of the phase transition3. Critical properties
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GL potential
Chiral field Diquark field
Order parameters
Underlying sym. (QCD)
Ginzburg-Landau study in dense QCD
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Pisarski-Wilczek (1984)
Chiral part
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Iida-Baym (2000)
Diquark part
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Hatsuda-Tachibana-Yamamoto-Baym (2006)
Interplay part
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Axial anomaly
2 possible ways of contracting 6-q KMT vertex in dense QCD
Kobayashi-Maskawa-’tHooft (KMT) interaction
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3-flavor massless quark matter
Color-Flavor Locking (CFL)Alford-Rajagopal-Wilczek (1998)
A simple ansatz for condensate fields
CFL breaks chiral symmetry! Srednicki-Susskind (1981)
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Chiral condensate
Diquark condensate (CFL)
GL parameters
・d ,σ≠0 is favored•ext. source for σ
Equivalent to Ising-ferro!
Possible phases
NOR
NGCSCCOE Critical point!
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χSB CSC
QGP
“Anomaly-induced critical point in dense QCD”Hatsuda, Tachibana, Yamamoto & Baym, PRL(’06)
BCDGP-AY
HTYB
Possible phase diagram in QCD
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Content
§1. Introduction
§2. QCD at finite baryon density
§3. Ginzburg-Landau study in dense QCD
§4. Astrophysical application
§5. Summary
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Dark matter capture in neutron stars
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Why the connection between
DM and NS?
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Possibly constraining WIMP-DM properties via NS
For a typical neutron star,
Way below the CDMS limit!
CDMSII, 1304.4279
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Impacts of dark matter on NS
• NS mass-radius relation with dark matter EOS• NS heating via dark matter annihilation
:
cf) This is not so a new idea. People have consideredthe DM capture by Sun and the Earth since 80’s.
W. Press and D. Spergel (1984)
Application to NS : Goldman-Nussinov (1989)
• Dark matter capture in NS and formation of black-hole to collapse host neutron stars
cosmion
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Cooling curves of Neutron Star
t
T
Cv : heat capacity L : luminosity
C. Kouvaris (‘10)
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(1) Accretion of DM
(1) Thermalization of DM (energy loss)
(2) BH formation and destruction of host NS
condition ofself-gravitation
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Capture rate due to DM-nucleon scattering
Self-capture rate due to DM-DM scattering
DM self-annihilation rate
Capturable number of DMs in NS
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(no self-capture/annihilation)
Just linearly grows and is the growth rate.
Realized when DM carries a conserved charge,
analogous to baryon number.
Below we consider this case
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① DM capture rateThe accretion rate (A. Gould, 1987)
neutron-DM elastic cross section
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② Thermalization of DM
After the capture, DMs lose energy via scatteringwith neutrons and eventually get thermalized
DM mass ≦ 1GeV,
DM mass ≧ 1GeV,
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Then, the DM gets self-gravitating once the total # of DM particles is larger than a critical value
If this condition is met, gravitational collapse takes place.
③ Self-gravitation of DM
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Condition
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McDermott-Yu-Zurek (2012)
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However…
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Hadrons inside NS are in EXTREME,and exotic matter states could appear.
(e.g.) neutron superfluiditymeson condensationquark superconductivity
What if those effects are incorporated?
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Some work in progress
① DM thermalization
Hyperon degrees of freedom?
② NS mass-radius relation
TOV eq. w/ dark star core
(Ref.) Bertoni-Nelson-Reddy (2013)
w/ T. Hatsuda
(Ref.) Ciarcelluti-Sandin (2011)
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Summary
Stellar constraints on dark matter properties
Dark matter capture in neutron stars--Accretion, thermalization and BH formation—
Models for DM, but not considering NS seriously
Proposal of medium effects for hadrons in NS--modified vacuum structures and collective modes--
DM study via NS is interesting!
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Summary
Study of dense QCD matter1. Dense QCD world as “Terra Incognita” 2. Ginzburg-Landau study in dense QCD3. A realization of quark-hadron continuity
Astrophysical applications of dense matter1. Neutron star(NS) as our “laboratory” 2. Recent topic for the NS observations3. Vortex dynamics of CFL quark matter
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Thank you !
感謝
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Summary Anime
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What is Neutron Star ?
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• A stellar remnant after supernova explosion• Literally, composed almost entirely of neutrons
• Its density is approximately equivalent to the
human population condensed to the size of
a sugar cube.
Ask our Maestro, Wikipedia
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Major questions
How particle physics comes into this business?
1. How to be born and evolve?2. Why so compact?3. Why so huge magnetic field?4. Why so rapidly rotating?
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Oh, yes! We love Exotica!
New states of matter present in NS !
Superfluid neutron/Supercond. ProtonBose-Einstein condensate (BEC) of mesonsHyperons (hadrons w/ strangeness)Deconfined quarks
Neutron star = laboratories for studying matter in extreme!
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We can even sing Neutron Star!
Let’s karaoke!
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Study of QCD matter
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QCD Lagrangian(Han-Nambu, 1965)
Simple, but very fertile in physics and math.Providing testing field for any new idea.
Unsolved problems (inexhaustible spring)
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A memory of Prof. Nambu
・In 2003, I gave a seminar in front of Nambu san and some other people including Yanagida san.
・That was the most exciting talk I’ve ever had.
・After the seminar, we went lunch and there,
Yanagida san asked Nambu san why he could
identify pion as the Nambu-Goldstone boson.
・After some time, he replied “I intuitively thought
so from the mass ratio btw pion and nucleons.”
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What happens to matter,as we make it hotter and hotterand/or squeeze it harder and harder?
A child-like question
Phases of QCD
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Dense QCD: Why so difficult ?
1. Lattice QCD: toughViolation of the positivity of the action (sign problem)
2. Experiment: hard Entropy production brings us to higher temperature regime
3. Supersymmetry: hopelessNuclear world would be a very different place with bosonic quarks
4. Quantum phase transition: richEntanglement among different orders
Effective models & NS observations !!As some trial, seeN. Maru and M. Tachibana,
“Color superconductivity from Supersymmetry”, hep-ph/0411079
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QGP (quark-gluon plasma)
CSC (color superconductivity)Hadronic NG(Nambu-Goldstone)
~200 MeV
~1 GeV
Barducci-Casalbuoni-De Curtis-Gatto-Pettini(‘89)Asakawa-Yazaki(’89)
A possible phase diagram (via Occam’s razor)
Terra Firma
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χSBCSC
QGP
1. Competition between different orders2. Strong coupling
Common features in QCD, HTS, and ultracold atoms
Similarity between QCD and High Tc Superconductor
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χSB CSC
QGP
“Anomaly-induced critical point in dense QCD”Hatsuda, Tachibana, Yamamoto & Baym, PRL(’06)
BCDGP-AY
HTYB
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Dark matter capture in neutron stars
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Why the connection between
DM and NS?
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Possibly constraining WIMP-DM properties via NS
For a typical neutron star,
Way below the CDMS limit!
CDMSII, 1304.4279
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Impacts of dark matter on NS
• NS mass-radius relation with dark matter EOS• NS heating via dark matter annihilation
:
cf) This is not so a new idea. People have consideredthe DM capture by Sun and the Earth since 80’s.
W. Press and D. Spergel (1984)
Application to NS : Goldman-Nussinov (1989)
• Dark matter capture in NS and formation of black-hole to collapse host neutron stars
cosmion
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Interesting connectionbetween
matters and universe
Dense matter and Compact StarsHarmony of particle, astro-, and condensed matter physics
Physics Orchestra !
Dense QCD matter and Neutron Stars
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Thank you !
感謝