paul stevenson || university of surrey using ...full details in pardi & stevenson, prc87, 014330...
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USING MEAN-FIELD DYNAMICS TO UNDERSTAND DENSITY FUNCTIONALS
PAUL STEVENSON || UNIVERSITY OF SURREY
+ A. S. Umar, J. A. Maruhn, P.-G. Reinhard, P. M. Goddard, E. B. Suckling, S. Fracasso
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USING DYNAMICS TO UNDERSTAND FUNCTIONALS
OVERVIEW
▸ Skyrme EDF
▸ tensor terms in collisions
▸ continuum BCs
▸ fission
▸ nuclear matter & giant resonances
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T I M E - D E P E N D E N T H A R T R E E - F O C K
Static HF
Time-dependent HF
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DENSITY FUNCTIONAL & TDHF
SKYRME DENSITY FUNCTIONAL
! T. H. R. Skyrme, Nucl. Phys. 9, 615 (1959)
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DENSITY FUNCTIONAL & TDHF
SKYRME ENERGY DENSITY FUNCTIONALE=∫d3r∑t=0,1(Ctρ[ρ0]ρt2 + Cts[ρ0]st2 + CtΔρρt∇2ρt + Ct
∇∙s(∇∙st)2 +
Ct∆sst∇2st + Ctτ(ρtτt–j2) + CtT(st∙Tt–Jt,μνJt,μν) +
CtF(st∙Ft–½Jt,μμ–½Jt,μνJt,νμ) + Ct(ρt∇∙Jt+st∙∇×jt)adjustable coefficients: Ctρ[ρ0], Cts[ρ0], CtΔρ, Ct
∇∙s, Ct∆s, Ctτ, CtT, CtF & Ct
time-even densities & currents:ρq(r)=ρq(r,r’)|r=r’τq(r)=∇∙∇’ρq(r,r’)|r=r’ Jq,μν(r)=-½ i (∇μ–∇’μ)sq,ν(r,r’)|r=r’
time-odd densities & currents:sq(r)=sq(r,r’)|r=r’jq(r) =-½ i (∇–∇’)ρq(r,r’)|r=r’Tq(r)=∇∙∇’sq(r,r’)|r=r’Fq(r)=½∑ν(∇μ∇’ν+∇’μ∇ν)sq,ν(r,r’)|r=r’
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UPPER FUSION THRESHOLD IN 16O+16O
Can map out fusion landscape as a function of b and ECM.
Lower boundary is due to Coulomb interaction and is insensitive to the force, but the upper boundary is force-dependent
(N.B this sample landscape shows 40Ca+40Ca
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UPPER FUSION THRESHOLDS IN 16O+16O
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UPPER FUSION THRESHOLDS IN 16O+16O
ROLE OF J2 TENSOR
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TENSOR FORCES IN ION-ION COLLISIONS
T22 (TOP) VS T24 (BOTTOM) 16O+16O @ 68 MEV
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TENSOR FORCES IN ION-ION COLLISIONS
SEE ALSO…
▸ Dai GaoFeng, Guo Lu, Zhao EnGuang & Zhou ShanGui, Science China: Phys., Mech., Astro. 57, 1618 (2014)
▸ Similar study but only including modification to spin-orbit strength when adding tensor terms
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CONTINUUM-TDHF
BOUNDARY CONDITIONS
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B O X S I Z E D E P E N D E N C E
C. I. Pardi and P. D. Stevenson, Phys. Rev. C87 014330 (2013)
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R A D I U S V I B R AT I O N S - G M R
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S T R E N G T H F U N C T I O N S
100 fm already impractical for all but spherical systems
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CONTINUUM-TDHF
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C O N T I N U U M T D H F
TDHF equation in dimensionless form (Q=reduced wf in spherical coords)
Laplace transform time coordinate
Substitute z=br√s with b=-2i√2i:
This is a standard tabulated form, with Whittaker function solnsFull details in Pardi & Stevenson, PRC87, 014330 (2013)
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C O N T I N U U M - T D H F C O N T .
Now apply the convolution theorem and evaluate the result at r=R (the end of our box):
R
Recall, Q is the reduced wavefunction. Note that for each each time, wehave to integrate at the boundary from the beginning of time.
In the above, the kernel is the inverse Laplace transform of
Inverse transform not totally straightforward
Full details in Pardi & Stevenson, PRC87, 014330 (2013)
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I N V E R S E L A P L A C E T R A N S F O R M
For neutron kernels, we have κ=0, which gives a special case of the Whittaker functions
H are Hankel functions of the first kind, and h are spherical Hankel functions. They are finite series for integer µ-1/2
These can be manipulated into a rational form (right), which can be expressed analytically in partial fractions (below)
Full details in Pardi & Stevenson, PRC87, 014330 (2013)
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I N V E R S E L A P L A C E T R A N S F O R M AT I O NUse linearity of Laplace transformation & tabulated form of partial fraction expansion:
Where w is the Fadeeva function w(z)=exp(-z²)erfc(-iz)
Some further simplification yields
This is then discretised in space and time coordinates, and is the basis for what is evaluated at the boundary.
What about protons? What about Coulomb? Life does get quite a bit harder.
(We think that) there is no convenient analytic rearrangement of the kernel into partial fractions or similar form with tabulated inverse Laplace transform
Instead, we assume a rational, finite, polynomial form and fit to the Whittaker functions with a non-linear least squares method. The finite polynomial is again expanded in partial fractions
Extension of the continuum time-dependent Hartree-Fock method to proton statesPhys. Rev. E 89, 033312 (2014)
C. I. Pardi, P. D. Stevenson, and K. Xu
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C O N T I N U U M T D H F
Some very long-lived components = fine structure in the strength Continuum-TDHF with Coulomb in C. I. Pardi, P. D. Stevenson and K. Xu, arXiv: 1306.4500, accepted for publication in PRE
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FISSION
FISSION IN TDHF
▸ Large amplitude collective motion
▸ can in principle think of performing induced fission, starting from an excited state
▸ TDHF cannot deal with spontaneous fission since it is deterministic in terms of trajectories of collective variables
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FISSION
QUADRUPOLE LANDSCAPE IN 240PU
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FISSION
FISSION IN 240PU
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FISSION
BOOST-INDUCED FISSIONStarting from fission isomer, we give the nucleus a quadrupole boost
a large amount of energy needs to be pumped in to the quadrupole mode so that enough of it goes into the fission pathway
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FISSION
Apply time-dependent boost
quadrupole mode gets induced more gently, with low-frequency modes getting excited with higher amplitude that high-frequency modes
fission occurs with tens, not hundreds of MeV
P. M. Goddard, PhD thesis, Surrey (2014)
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FISSION
DEFORMATION-INDUCED FISSION
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FISSION
SAMPLE OF DIFFERENT STARTING POINTS
non-adiabatic paths — leads to a kind of fragment distribution
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FISSION
FRAGMENT DISTRIBUTION
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FISSION
POWER SPECTRUM OF FRAGMENTS
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GIANT RESONANCES & NUCLEAR MATTER
CONSTRAINING K’
▸ ISGQR dominated by single peak
▸ extract energy from one cycle (automatically a continuum calculation)
▸ correlate energy with K’
▸ K’=400±30 MeV
16O
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SUMMARY
▸ TDHF applied to large & small amplitude motion
▸ Effect of choice of Skyrme parameterisation and what time-odd terms are used can be significant
▸ computationally expensive to systematically study too many interactions or include in fits — especially for some processes (like fission)