heavy-ion reactions around the coulomb barrier: an...
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Heavy-ion reactions around the Coulomb barrier: an overview
Kouichi Hagino Tohoku University, Sendai, Japan
1. Introduction: why subbarrier fusion?2. Role of nuclear structure in subbarrier fusion3. Friction, dissipation, quantum decoherence?4. Fusion of unstable nuclei5. Pair transfer reactions6. Summary
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Fusion: compound nucleus formation
courtesy: Felipe Canto
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Inter-nucleus potentialTwo forces:1. Coulomb force
Long range, repulsive
2. Nuclear forceShort range, attractive
Potential barrier dueto the compensationbetween the two(Coulomb barrier)
•above barrier•sub-barrier•deep subbarrier
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Why subbarrier fusion?Two obvious reasons:
discovering new elements (SHE by cold fusion reactions)
nuclear astrophysics(fusion in stars)
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Why subbarrier fusion?Two obvious reasons:discovering new elements (SHE)nuclear astrophysics (fusion in stars)
Other reasons:
reaction mechamismstrong interplay between reaction and structure (channel coupling effects)
cf. high E reactions: much simpler reaction mechanismmany-particle tunneling
cf. alpha decay: fixed energytunneling in atomic collision: less variety of intrinsic motions
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the simplest approach to fusion cross sections: potential model
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Potential model:Reproduces the data reasonably well forE > Vb
Underpredicts σfus for E < Vb
cf. seminal work:R.G. Stokstad et al., PRL41(‘78)465
PRC21(‘80)2427
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Strong target dependence at E < Vb
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Low-lying excited states in even-even nuclei are collective excitations, and strongly reflect the pairing correlation and shell strucuture
Low-lying collective excitations in atomic nuclei
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Coupled-Channels method
ground state
}excited states
Coupling between rel. and intrinsic motions
0+ 0+
0+ 0+
2+ 0+
Entrance channel
Excited channel
coupled Schroedinger equations for ψk(r)
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154Sm 16O
θ
Def. Effect: enhances σfus by a factorof 10 ~ 100
Fusion: interesting probe for nuclear structure
Subarrier fusion: strong interplay between reaction and structure
coupled-channels equations
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Two effects of channel couplings
energy loss due to inelastic excitations
dynamical modification of the Coulomb barrier
large enhancement of fusion cross sections
no Coul-ex
with Coul-ex
cf. 2-level model: Dasso, Landowne, and Winther, NPA405(‘83)381
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Coupling to excited states distribution of potential barrier
multi-dimensional potential surface
relative distance
r
x(intrinsic coordinate)
single barrier a collection of many barriers
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centered on E= Vb
N. Rowley, G.R. Satchler,P.H. Stelson, PLB254(’91)25
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Fusion barrier distribution: sensitive to small effects such as β4
M. Dasgupta et al.,Annu. Rev. Nucl. Part. Sci. 48(’98)401
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logarithmic derivative (~00’s)
cf.
R. Vandenbosch,Ann. Rev. Nucl. Part. Sci. 42(‘92)447
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deep subbarrier hindrance of fusion cross sections
C.L. Jiang et al., PRL89(‘02)052701; PRL93(‘04)012701
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Systematics of the touching point energy and deep subbarrier hindrance
T. Ichikawa, K.H., A. Iwamoto,PRC75(’07) 064612 & 057603
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Recent debates: quantum decoherence in deep subbarrier fusion?
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Coherent superposition
interference
In macroscopic systems, no superposition:
Quantum decoherence theoryCouplings to environment
Quantum to classical transition
Quantum decoherence
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nuclear spectrum
E*
These states are excited during nuclear reactions in a complicated way.
nuclear intrinsic d.o.f. act as environment for nuclear reaction processes
atomic nuclei: microscopic systemslittle effect from external environment
“intrinsic environment”
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Open questionsIs quantum decoherence relevant to heavy-ion fusion?
maybe yes, maybe no
If yes, do we really have to care whether the system decoheres? or is it sufficient simply to take into account couplings to environments?
clear demonstration of effects of decoherence: necessary(at this moment, it is just a conjecture)
cf. fusion cross sections:
How well can we describe effects of non-collective degrees of freedom (unified model between fusion and DIC)?
Fusion model friction free: strong absorption inside the barrierquantum mechanical model for Wall-Window friction?
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Fusion of unstable nuclei
Fusion of stable nuclei: large enhancement of fusion cross sections
Fusion of unstable (weakly bound) nuclei?fusion cross section: enhanced? hindered? no change?
still not known completely
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Two effets1. Lowering of potential barrier
due to a halo structureenhancement
2. effect of breakup
•hindrance due to disappearance of barrier lowering after breakup?
• enhancement due to channel coupling effects as in stable nuclei?
• some more complicated dynamicaleffect?
N. Takigawa and H. Sagawa, PLB265(‘91)23
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Experimental data
A. Lemasson et al., PRL103(‘09)232701
4,6,8He + 197Ausome enhancement compared
to 4Hesimilar behaviour between 6He
and 8He(can we understand this?)
no huge effects of breakup/transfer!?
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A. Lemasson et al., PRL103(‘09)232701
8He + 197Au
R. Raabe et al., Nature 431 (‘04)823
6He + 238U
large transfer cross sections
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Very recent data for 12,13,14,15C + 232Th
M. Alcorta et al., PRL106(‘11)172701
15C: 1n halo nucleus
enhanced fusion cross sections
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Pair Transfer6He + 238U
large (2n) transfer cross sections
pair transfer (in addition to breakup) is one the important processesin reactions of unstable nuclei
role of dineutron correlation?
Calculations: need to include breakup and transfer in a consistent way
r
rθ
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6He = 4He + “dineutron”
K.H. and H. Sagawa, PRC72(’05)044321
8He = 4He + two “dineutrons”
K.H., N. Takahashi, and H. Sagawa,PRC77(‘08)054317.
A. Lemasson et al., PLB697(‘11)454
increased transfer cross sections going from 6He to 8He
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Pair correlation and pair transfer
144Sm + 208Pb
J. Speer et al., PLB259(‘91)422
112Sn + 120Sn
W. von Oertzen et al., Z. Phys. A326(‘87)463
pair transfer probability strongly reflects the pairing correlation
: the distance of the closest approach
pair transfer probability:
P1n
P1n
P2n(P1n)2
P2n ~ (P1n)2
no enhancement of P2n for (semi-)magic nuclei
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Pair transfer:
Reaction mechanism?- sequential vs simultaneous- Q-value, angular momentum matchings
Role of dineutron correlation (on the surface)?Influence to other reaction processes (e.g., subbarrier fusion)?
have not yet been fully clarified
how is the reaction mechanism modified if most of intermediate states are unbound?
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A. Chatterjee et al., PRL101(’08)032701
6He + 65Cu
Recent experiments for transfer reaction of neutron-rich nuclei1H(11Li,9Li)3H
I. Tanihata et al., PRL100(‘08)192502
It is timely to construct: a new theory of pair transfer with dineutron correlation.
need a deep understanding of reaction dynamicsinfluence on subbarrier fusion? (open question)
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SummaryHeavy-ion subbarrier fusion reactions
strong interplay between reaction and structure quantum tunneling with several kinds of environment
how do we understand many-particle tunneling?- related topics: fission, alpha decays, two-proton radioactivities
Large amplitude collective motionsrole of dissipative environment?
- dissipation, friction, quantum decoherence?microscopic understanding of subbarrier fusion?
fusion of unstable nuclei?- breakup, (multi-nucleon) transfer
Open questions
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(Big) open question:Construction of microscopic nuclear reaction model applicable
at low energies?
cf. nuclear structure calculations
• 2-body nn interaction mean-field RPAresidual interaction TDHF
advantage: non-empiricaldisadvantage: difficult to control a mean-field
• mean-field pot. residual interaction RPATDHF
guiding principle
deep understanding of resultscomplementary
many-particle tunneling
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TDHF, QMD, AMD not applicable to low-energy fusion(classical?)
Cluster approach (RGM)only for light systems
H.O. wave function (separation of cm motion)
how to understand quantum tunneling from many-particle point of view?
Microscopic nuclear reaction theories
Double Folding approachsurface region: OK, but inside? role of antisymmetrization?validity of frozen density approximation?
Full microscopic theory: ATDHF, GCM, ASCC ?imaginary-time TDHF?