a pathway to a transport model for raon
DESCRIPTION
A Pathway to a Transport Model for RAON. Kyungil Kim. Dec. 7 th ,2013 ,HIM. Contents. RAON and Nuclear Reactions Introduction to Transport Model Equation of State and Symmetry Energy Transport Model for RAON Summary and Outlook. RAON and Nuclear Reactions. - PowerPoint PPT PresentationTRANSCRIPT
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Dec. 7th ,2013 ,HIM
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Contents
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I. RAON and Nuclear Reactions
II. Introduction to Transport Model
III. Equation of State and Symmetry Energy
IV.Transport Model for RAON
V. Summary and Outlook
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RAON and Nuclear Reactions
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High intensity RI beams by ISOL & IFISOL : direct fission of 238U by p 70MeVIF by 200MeV/u, 8.3pμA 238U
High quality neutron-rich RI beams 132Sn with up to ~250MeV/u, up to 107
pps
More exotic RI beams by ISOL+IF
Slide from Y.K.Kim’s presentation
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RAON and Nuclear Reactions
4figure from Y.K.Kim’s presentation
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RAON and Nuclear Reactions
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Projectile
Target
Fusion
Quasifissio
n
Inelasticscatterin
g
Multi-fragmentai
on
Production of
hadrons
Coulombexcitatio
n
Induced
fission
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RAON and Nuclear Reactions
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Direct Reactions Compound Nuclear Reactions
Time~10-20 sec ~10-16 sec
Non-equilibrium aspects Equilibrated (decay statistically)
np
α
Low and intermediate energy regime : ~ 100 MeV/n
- fusion, quasi-fission (multinucleon transfer) , fragmentation
Relativistic regime : 100 MeV/n ~ a few GeV/n
- production of hadrons, collective flow phenomena
Kinetic Energy
λ=h/p
1 MeV 3 x 10-14 m
10 MeV 9 x 10-15 m
100 MeV 3 x 10-15 m
1 GeV 7 x 10-16 m
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Transport Model?
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Transport model : Model to treat non-equilibrium aspects of the temporal evolution of a collision.
Many-body problem with nucleons
Numerical simulation
Direct reaction regime (compound nuclear reaction -> statistical model)
Different methods with different energies
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Various Codes
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BUU Type
QMD Type
Transport Model
• Boltzmann : Collision term• Uehling & Uhlenbeck, Nordheim : Pauli blocking• Vlasov : Mean field w/o collision• Landau : Averaged collisionsMany names, Boltzmann-Uehling-Uhlenbeck : BUU BNL , VUU, LV, … Isospin dependent BUU : IBUU Relativistic BUU : RBUU …
Classical Molecular Dynamics : CMD Quantum Molecular Dynamics : QMD Antisymmetrized MD : AMD Fermionic MD : FMD Constrained MD : CoMD Improved QMD : ImQMD Ultra-relativistic QMD : UrQMD …
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Introduction to Transport Model
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1. Initialization
<Phase Space Density and Wigner Transforamtion>
• Both a position and a momentum of nucleons are needed. Phase space density!!
• Wigner transformation
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Introduction to Transport Model
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QMD Model
BUU Model Semi-classical approach : point particles Test particle method : 1~500 test particles per nucleon
L=1.08 fm2
-> rN=1.8 fm
Gaussian wave packets
Randomly distributed !
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Introduction to Transport Model
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2. Propagation
Boltzmann-Uehling-Uhlenbeck equation
drift term accelerating term collision term
cf) RBUU eq. :
BUU Model
1 fm
1 fm
(Unit box for density estimation)
Equation of motion
Density dependent mean field
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Introduction to Transport Model
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QMD Model
Equation of motion
Nucleon-Nucleon interaction : Skyrme , Volkov , Gogny , …
ex) Gogny force
ex) Skyrme force
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Introduction to Transport Model
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3. Collision
NN -> NN , NN -> NΛK , NN -> NΔ ,NΔ -> NΔ , Δ -> Nπ , …
r1r2
Interaction radius = π(r1 + r2)2
Scatter with probability 1 !
<Elastic and In-elastic scattering>
Pauli blocking factor
In-medium cross-section
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Introduction to Transport Model
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BUU Model
<Full ensemble method><Parallel ensemble method>
NTP ensemblesσTP= σNN/NTP
~(ANTP)2
~NTPA2
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Introduction to Transport Model
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4. Clustering
Identifications of collision fragments are performed by clustering nearby nucleons.
Projectile
Target
A few MeV/n
Fusion
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Introduction to Transport Model
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Initialization
Propagation
Collision Clustering
More possible collisions
?Yes
Particle identification
No
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EOS and Symmetry Energy
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Ref.) A.Steiner et al. P.Rept 411 (2005) 325
Incompressibility of symmetry nuclear matter at its saturation density
from Giant Monopole Resonance
where,
Equation of State
Astrophysics (super novae, neutron star) Giant monopole resonance Heavy-ion collisions
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EOS and Symmetry Energy
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Ref.) A.Steiner et al. P.Rept 411 (2005) 325
<The multifaceted influence of the nuclear symmetry energy>
To explore the EOS
of isospin
asymmetric matter
from heavy-ion
reactions induced by
neutron-rich beams,
we need appropriate
theoretical tools.
-> Transport
Model !!
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CoMD and ImQMD
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Constrained Molecular Dynamics (CoMD)
Improved Quantum Molecular Dynamics (ImQMD)
Restriction on phase space density
Consideration of surface energy
Typical QMD + constraints -> less CPU time
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CoMD and ImQMD
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Testing stability of nuclei Fusion cross-sections
N.Wang – Phys.Rev.C 65 (2002) 064608
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FMD and AMD
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Ex.) 12C in AMD
3α structure
Slater Determinant
Fermionic Molecular Dynamics (FMD)Antisymmetrized Molecular Dynamics (AMD)
AMD wave function
Equation of motion for the wave packet centroids Z
Better fermionic nature -> more CPU time!
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FMD and AMD
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A.Ono – Prog.Part.Nucl.Phys 53 (2004) 501
<Binding energies of nuclei>
The charge distribution of the produced clusters in 129Xe+Sn at 50 MeV/n
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Transport Model for RAON
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e.g. 11Li is bigger than 208PbUnstable nuclei
Nuclear Structure !!
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Transport Codes and Super Computer
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Cluster at RISP : 480 CPU cores
Tachyon II at KISTI : 25408 CPU cores
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Summary and Outlook
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RAON facility will provide opportunities to study isospin asymmetric matters and exotic nuclei by heavy-ion collisions induced by neutron-rich beams.
As a reliable theoretical tools, we need a transport model.
Transport model is a model to treat non-equilibrium aspects of the temporal evolution of a collision.
Many transport model codes are developed for different energy regions and observables.
To simulate HIC at RAON, we need a transport model which describes well low energy reactions and nuclear structures.
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References
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BUU G.Bertsch – Phys.Rept 160 (1988) 189 P.Danielewicz – Ann.Phys 152 (1984) 239, 305
RBUU O.Buss – Phys.Rept 512 (2012) 1
QMD J.Aichelin – Phys.Rept 202 (1991) 233
AMD A.Ono – Prog.Part.Nucl.Phys 53 (2004) 501
FMD H.Feldmeier – Nucl.Phys A515 (1990) 147
ImQMD N.Wang – Phys.Rev.C 65 (2002) 064608
CoMD M.Papa – Phys.Rev.C 64 (2001) 024612
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Thank you for your attention!!
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Backup Slides
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<Schematic View of the Fusion Process>
Captureb<bc
Quasi-fission0<L<Lcap
Compound Nucleus
Compound Nucleus
Fast-fissionLB<L<Lcap
Inelastic b>bc
scattering
Fusion 0<L<LB
Projectile
Target
A few MeV/n
Fission (Fusion-fission)
np
α
Evaporation
Competition!
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Super Heavy Elements at RAON
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