China Institute of Atomic Energy, P. O. Box 275(10), Beijing

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Presentation transcript:

China Institute of Atomic Energy, P. O. Box 275(10), Beijing 102413 Abnormal threshold anomaly in exotic nuclear systems and its significances Chengjian Lin China Institute of Atomic Energy, P. O. Box 275(10), Beijing 102413 1st workshop on applications of high energy Circular Electron-Positron Collider (CEPC) synchrotron radiation source 第一届CEPC同步辐射光源应用研讨会（6-8 Dec, 2017, IHEP, Beijing）

Outline I. Introduction II. Experimental Procedure III. Results and Discussions IV. Summary CEPC- CJLin@ciae.ac.cn 1

Optical Model Potential A successful model to explain the experimental data on scattering and reaction is the optical model, which resembles the case of light scattered by an opaque glass sphere. phenomenological potential, independent on energy. A basic task in nuclear reaction study is to understand the nuclear interaction potential. Optical Model Potential (OMP): U = V(r) + iW(r) attractive absorptive Cf: 1) S. Fernbach, R. Serber, and T. B. Taylor, Phys. Rev. 73, 1352 (1949). 2) H. Feshbach, “The optical model and its justification”, Ann. Rev. Nucl. Sci. 8, 49 (1958). CEPC- CJLin@ciae.ac.cn 2

A universal phenomenon within the Coulomb barrier energy region Threshold Anomaly A universal phenomenon within the Coulomb barrier energy region tightly-bound nuclear systems C.J. Lin et al., PRC 63, 064606 (2001). Threshold Anomaly Dispersion relation Space Time Nonlocality Dynamic polarization potential: Dispersion relation (results from the causality) Cf: 1) M. A. Nagarajan, C. C. Mahaux, and G. R. Satchler, Phys. Rev. Lett. 54, 1136 (1985). 2) C. Mahaux, H. Ngo, and G. R. Satchler, Nucl. Phys. A449, 354 (1986). 3) G. R. Satchler, Phys. Rep. 199, 147 (1991). CEPC- CJLin@ciae.ac.cn 3

Abnormal Threshold Anomaly For weakly-bound nuclear systems: 6,7Li, 9Be and RNB induced reactions increase decrease 6Li+208Pb JPG 371, 075108 (2010). 9Be+208Pb 9Be+209Bi Reason? Dispersion relation? Nucl. Phys. A571, 326 (1994). Breakup Threshold Anomaly -- M. S. Hussein et al., Phys. Rev. C 73, 044610 (2006). CEPC- CJLin@ciae.ac.cn 4

Extraction -- Elastic OMPs are usually extracted by fitting the angular distributions of elastic scattering. 6He+209Bi  =6 -11° E=1.2 -1.5 MeV ★ Rather difficult to extract an effective OMP at energy below the barrier. Cf: 1) E.F. Aguilera et al., PRL 84, 5058 (2000); PRC 63, 061603R (2001). 2) A. R. Garcia et al., Phys. Rev. C 76, 067603 (2007). CEPC- CJLin@ciae.ac.cn 5

Extraction -- Transfer We proposed to extract the OMPs through transfer reactions. b + A x a = b+x B = A+x Transfer reaction A(a,b)B elastic scatting cross sections In the DWBA calculation, Transition amplitude: 4 wave functions are needed, two bound states: b+x & A+x (single-particle potential model) two scattering states: incoming & outgoing (optical potentials) Cf: C. J. Lin et al., AIP Conf. Proc. 853, 81 (2006). CEPC- CJLin@ciae.ac.cn 6

Systematic study Proposed：C. J. Lin et al., AIP Conf. Proc. 853, 81 (2006), presented at the FUSION06. 16O(14N,13C)17F：Chin. Phys. Lett. 25, 4237 (2008). 11B(7Li,6He)12C：Chin. Phys. Lett. 26, 022503 (2009). Phys. Rev. C 87, 047601 (2013). 208Pb(7Li,6He)209Bi：Phys. Rev. C 89, 044615 (2014), Il Nuovo Cimento C 39, 367 (2016), Chin. Phys. Lett. 31 (9), 092401 (2014), Phys. Rev. C 96, 044615 (2017). 63Cu(7Li,6He)64Zn：Phys. Rev. C 95, 034616 (2017). ★Referee: “Data on the scattering of 6He with various targets are of interest to assess the role of the weak binding and halo nature of the 6He nucleus in reaction processes.” 10% changed no halo halo Sensitivity test Effects of halo structure CEPC- CJLin@ciae.ac.cn 7

2 Telescopes: SSSD(20m) + DSSD(60m) + QSD(100m) 208Pb(7Li,6He)209Bi Exps Two experiments have been done at HI-13 tandem accelerator @ CIAE Exp1: Ebeam = 42.55, 37.55, 32.55, 28.55, 25.67 MeV – high energies 【2004.8】 Exp2: Ebeam = 28.55, 25.67, 24.3, 21.2 MeV -- low energies 【2016.4】 Angular distributions of both elastic scattering and transfer were measured. Exp1 – R20 Exp2 – R60 2 Telescopes: SSSD(20m) + DSSD(60m) + QSD(100m) Q3D (-20-140) 7 Si(Au)s 150,160,170 3 E-Es 7Li F.cup Target Monitor (10) Focal Plane CEPC- CJLin@ciae.ac.cn 8

Exp1 spectrums Focal Plane E-E telescope CEPC- CJLin@ciae.ac.cn 9 0.48 MeV 2.62 MeV 3.20 MeV 3.95 MeV 4.63 MeV 5.65 MeV 0.90 MeV 1.61 MeV 2.83 MeV 3.12 MeV 3.63 MeV 4.44 MeV 209Bi(Ex1) 209Bi(Ex2) G.S. 7Li 6He CEPC- CJLin@ciae.ac.cn 9

Single-particle states S-factors are well known Exp2 spectrums 28.55 MeV 24.30 MeV 6He Single-particle states S-factors are well known CEPC- CJLin@ciae.ac.cn 10

Analyses DWBA & CRC analyses CEPC- CJLin@ciae.ac.cn 11 42.55 MeV

Results ★ OMPs of the 6He+209Bi system are determined precisely for the first time; ★ The decreasing trend in the imaginary part is observed, and the threshold energy is about 13.73 MeV (~0.68VB); ★ The behavior of real part looks normal, i.e. like a bell shape around the barrier; ★ The dispersion relation does NOT hold in this system. preliminary L. Yang, C.J. Lin*, H.M. Jia et al., Phys. Rev. Lett. 119, 042503 (2017); Phys. Rev. C 96, 044615 (2017). CEPC- CJLin@ciae.ac.cn 12

Publishing CEPC- CJLin@ciae.ac.cn 13

The Dispersion Relation is not Applicable for Exotic Nuclear Systems. Discussion The Dispersion Relation is not Applicable for Exotic Nuclear Systems. A serious problem!  Dispersion relation results from Causality;  Connecting real part and imaginary part;  Any wave, like microscopic particle, should obey this rule when it pass through a media. CEPC- CJLin@ciae.ac.cn 14

The K-K Relation + Causality  Dispersion Relation: The Kramers-Kronig relation wikipedia : The Kramers-Kronig relations are bidirectional mathematical relations, connecting the real and imaginary parts of any complex function that is analytic in the upper half-plane. These relations are often used to calculate the real part from the imaginary part (or vice versa) of response functions in physical systems because for stable systems causality implies the analyticity condition is satisfied, and conversely, analyticity implies causality of the corresponding stable physical system. cf: J. S. Toll, Phys. Rev. 104, 1760 (1956). + CEPC- CJLin@ciae.ac.cn 15

The Cauchy integral + Weakly-bound system: infinity poles  Stable system: finite poles in the real axis  Tightly-bound nuclear system: finite bound states in the real axis [cf: C. Mahaux et al., NPA 449, 354 (1986).]  Weakly-bound exotic nuclear system: infinity states (continuum) … in the real axis ? The Cauchy integral theorem -- Cauchy’s residue theorem + CEPC- CJLin@ciae.ac.cn 16

Negative Index of Refraction The nature of the material: Experimental Verification of a Negative Index of Refraction, R. A. Shelby, D. R. Smith, and S. Schultz, Science 292, 77 (2001). CEPC- CJLin@ciae.ac.cn 17

Locality & Non-locality OMP: local Schrödinger equation Wave functions: non-local Energy dependence on the equivalent local potential The fundamental quantum mechanics: Quantum state (non-local) v.s. Measurement (local) Schrödinger’s cat CEPC- CJLin@ciae.ac.cn 18

On the CEPC- source Applications on: Nuclear reaction: photon-induced fission… Nuclear structure: giant resonance … Nuclear data: … Nuclear astrophysics: (,n), (,p), (,a) … (n,), (p,), (,)… Nuclear material: radiation effects … CEPC- CJLin@ciae.ac.cn 19

On the CEPC- source  + N  ? 100 MeV ,   12.4 fm 2.2 GeV  + N  ? 100 MeV ,   12.4 fm PRL 30, 328(1973). CEPC- CJLin@ciae.ac.cn 20

Summary Transfer reactions are employed to extract the OMPs of exotic nuclear systems in the exiting channels. Advantage: 1) stable beam; 2) high-quality data; 3) precise OPs. 4) good for sub-barrier energy, where the absolute C.S. sections provide extra constraints on OMP. OMPs of the 6He+209Bi system have been determined precisely, showing: 1) the threshold energy. (~0.68 VB). 2) an abnormal TA behavior. The dispersion relation does not hold for the exotic systems. CEPC- CJLin@ciae.ac.cn 21

Thanks ! China Institute of Atomic Energy