Your search keyword '"H.M. Jia"' showing total 17 results

1. Insight into the reaction dynamics of proton drip-line nuclear system 17F+58Ni at near-barrier energies

Author

L. Yang, C.J. Lin, H. Yamaguchi, Jin Lei, P.W. Wen, M. Mazzocco, N.R. Ma, L.J. Sun, D.X. Wang, G.X. Zhang, K. Abe, S.M. Cha, K.Y. Chae, A. Diaz-Torres, J.L. Ferreira, S. Hayakawa, H.M. Jia, D. Kahl, A. Kim, M.S. Kwag, M. La Commara, R. Navarro Pérez, C. Parascandolo, D. Pierroutsakou, J. Rangel, Y. Sakaguchi, C. Signorini, E. Strano, X.X. Xu, F. Yang, Y.Y. Yang, G.L. Zhang, F.P. Zhong, and J. Lubian

Subjects

Weakly bound valence-proton nucleus, Reaction dynamics, Near-barrier energies, Physics, QC1-999

Abstract

The mechanism of reactions with weakly-bound proton-rich nuclei at energies near the Coulomb barrier is a long-standing open question owing to the paucity of experimental data. In this study, a complete kinematics measurement was performed for the proton drip-line nucleus 17F interacting with 58Ni at four energies near the Coulomb barrier. Thanks to the powerful performance of the detector array, exhaustive information on the reaction channels, such as the differential cross sections for quasielastic scattering, exclusive and inclusive breakup, as well as for fusion-evaporation protons and alphas, was derived for the first time. The angular distributions of quasielastic scattering and exclusive breakup can be described reasonably well by the continuum-discretized coupled-channels calculations. The inclusive breakup was investigated using the three-body model proposed by Ichimura, Austern, and Vincent, and results indicate the non-elastic breakup is the dominant component. The total fusion cross sections were determined by the fusion-evaporation protons and alphas. Based on the measured exclusive breakup data, the analysis of the classical dynamical simulation code PLATYPUS demonstrates that the incomplete fusion plays a minor role. Moreover, compared with 16O+58Ni, both the reaction and total fusion cross sections of 17F+58Ni exhibit an enhancement in the sub-barrier energy region, which mainly arises from couplings to the continuum states. This work indicates that the information of full reaction channels is crucially important to comprehensively understand the reaction mechanisms of weakly bound nuclear systems.

Published

2021

2. Scattering of the halo nucleus 11Be from a lead target at 3.5 times the Coulomb barrier energy

Author

F.F. Duan, Y.Y. Yang, K. Wang, A.M. Moro, V. Guimarães, D.Y. Pang, J.S. Wang, Z.Y. Sun, Jin Lei, A. Di Pietro, X. Liu, G. Yang, J.B. Ma, P. Ma, S.W. Xu, Z. Bai, X.X. Sun, Q. Hu, J.L. Lou, X.X. Xu, H.X. Li, S.Y. Jin, H.J. Ong, Q. Liu, J.S. Yao, H.K. Qi, C.J. Lin, H.M. Jia, N.R. Ma, L.J. Sun, D.X. Wang, Y.H. Zhang, X.H. Zhou, Z.G. Hu, and H.S. Xu

Subjects

Elastic scattering, Breakup reaction, Breakup coupling effects, CDCC, XCDCC, Physics, QC1-999

Abstract

Angular distributions of quasielastic scattering and breakup of the neutron-rich halo nucleus 11Be on a 208Pb target at an incident energy of 140 MeV (about 3.5 times the Coulomb barrier) were measured at HIRFL-RIBLL. A strong suppression of the Coulomb nuclear interference peak is observed in the measured quasielastic scattering angular distribution. The result demonstrates for the first time the persistence of the strong breakup coupling effect reported so far for reaction systems involving neutron-halo nuclei at this relatively high incident energy. The measured quasielastic scattering cross sections are satisfactorily reproduced by continuum discretized coupled channel (CDCC) calculations as well as by the XCDCC calculations where the deformation of the 10Be core is taken into account. The angular and energy distributions of the 10Be fragments could also be well reproduced considering elastic breakup (CDCC and XCDCC) plus nonelastic breakup contributions, with the latter evaluated with the model by Ichimura, Austern and Vincent [1]. The comparison of the 10Be energy distributions with simple kinematical estimates evidence the presence of a significant post-acceleration effect which, in the (X)CDCC frameworks, is accounted for by continuum-continuum couplings.

Published

2020

3. Bayesian analysis on interactions of exotic nuclear systems

Author

L. Yang, C.J. Lin, Y.X. Zhang, P.W. Wen, H.M. Jia, D.X. Wang, N.R. Ma, F. Yang, F.P. Zhong, S.H. Zhong, and T.P. Luo

Subjects

Bayesian framework, Frequentist approach, Optical model potential, Exotic nuclear system, Physics, QC1-999

Abstract

Even though the Bayesian method has been proved to be powerful in the field of nuclear physics, it has not yet been implemented to study the properties of the reaction systems with exotic nuclei, for instance, the gross feature of the phenomenological interaction potential. So far, the optical model potential was typically evaluated by the traditional frequentist approach. However, contradictive conclusions were drawn, especially on the near-threshold behavior of the imaginary potential: threshold anomaly and abnormal threshold anomaly were derived for 6Li+209Bi and 6He+208Pb even with the same elastic scattering data. In this study, we first applied the Bayesian framework to analyze the elastic scattering data of 6Li+209Bi. It was found that the results of Bayesian statistics strongly depend on the imposed prior distributions. Therefore, the Bayesian method has to be used with extreme caution, since the improper prior knowledge could lead to completely wrong conclusions. Since the elastic scattering data is not informative enough to constrain the prior and posterior distributions, our analysis further indicates that the results from the non-constraint frequentist approach or the flat prior distribution with a reasonable physical-boundary can be employed as convincing prior knowledge of the Bayesian framework. Based on this result, we further applied the Bayesian approach to the transfer reaction 208Pb(7Li,6He)209Bi, to investigate the optical potentials of the neutron halo system 6He+209Bi in the outgoing channel. With the proper prior distributions, the Bayesian analysis on both the 6Li+209Bi and 6He+208Pb confirm the presence of the abnormal threshold anomaly. Therefore the applicability of the dispersion relation remains in doubt.

Published

2020

4. Experimentally well-constrained masses of 27P and 27S: Implications for studies of explosive binary systems

Author

L.J. Sun, X.X. Xu, S.Q. Hou, C.J. Lin, J. José, J. Lee, J.J. He, Z.H. Li, J.S. Wang, C.X. Yuan, F. Herwig, J. Keegans, T. Budner, D.X. Wang, H.Y. Wu, P.F. Liang, Y.Y. Yang, Y.H. Lam, P. Ma, F.F. Duan, Z.H. Gao, Q. Hu, Z. Bai, J.B. Ma, J.G. Wang, F.P. Zhong, C.G. Wu, D.W. Luo, Y. Jiang, Y. Liu, D.S. Hou, R. Li, N.R. Ma, W.H. Ma, G.Z. Shi, G.M. Yu, D. Patel, S.Y. Jin, Y.F. Wang, Y.C. Yu, Q.W. Zhou, P. Wang, L.Y. Hu, X. Wang, H.L. Zang, P.J. Li, Q.Q. Zhao, H.M. Jia, L. Yang, P.W. Wen, F. Yang, M. Pan, X.Y. Wang, Z.G. Hu, R.F. Chen, M.L. Liu, W.Q. Yang, and Y.M. Zhao

Subjects

Physics, QC1-999

Abstract

The mass of 27P is expected to impact the X-ray burst (XRB) model predictions of burst light curves and the composition of the burst ashes, but large uncertainties and inconsistencies still exist in the reported 27P masses. We have used the β-decay spectroscopy of 27S to determine the most precise mass excess of 27P to date to be −659(9) keV, which is 63 keV (2.3σ) higher and a factor of 3 more precise than the value recommended in the 2016 Atomic Mass Evaluation. Based on the new 27P mass, the Si26(p,γ)27P reaction rate and its uncertainty were recalculated using Monte Carlo techniques. We also estimated the previously unknown mass excess of 27S to be 17678(77) keV, based on the measured β-delayed two-proton energy and the Coulomb displacement energy relations. The impact of these well-constrained masses and reaction rates on the modeling of the explosive astrophysical scenarios has been investigated by post-processing XRB and hydrodynamic nova models. Compared to the model calculations based on the masses and rates from databases, the abundance of A=26 in the burst ashes is increased by a factor of 2.4, while no substantial change was found in the XRB energy generation rate or the light curve. Our calculation also suggests that 27S is not a significant waiting point in the rapid proton capture process, and the change of the Si26(p,γ)27P reaction rate is not sufficiently large to affect the conclusion previously drawn on the nova contribution to the synthesis of galactic 26Al. Keywords: Masses of 27P and 27S, Si26(p,γ)27P reaction, X-ray bursts, Nova outbursts

Published

2020

5. Observation of β-delayed two-proton emission in the decay of 22Si

Author

X.X. Xu, C.J. Lin, L.J. Sun, J.S. Wang, Y.H. Lam, J. Lee, D.Q. Fang, Z.H. Li, N.A. Smirnova, C.X. Yuan, L. Yang, Y.T. Wang, J. Li, N.R. Ma, K. Wang, H.L. Zang, H.W. Wang, C. Li, M.L. Liu, J.G. Wang, C.Z. Shi, M.W. Nie, X.F. Li, H. Li, J.B. Ma, P. Ma, S.L. Jin, M.R. Huang, Z. Bai, F. Yang, H.M. Jia, Z.H. Liu, D.X. Wang, Y.Y. Yang, Y.J. Zhou, W.H. Ma, J. Chen, Z.G. Hu, M. Wang, Y.H. Zhang, X.W. Ma, X.H. Zhou, Y.G. Ma, H.S. Xu, G.Q. Xiao, and H.Q. Zhang

Subjects

Physics, QC1-999

Abstract

The decay of the lightest nucleus with Tz=−3, 22Si, was studied by a silicon array. A charged-particle group at 5600 (70) keV in the decay-energy spectrum was identified experimentally as β-delayed two-proton emission from the isobaric analog state (IAS) of 22Al. Experimental results of the IAS fed by a superallowed Fermi transition were compared with our large-scale shell-model calculations. The ground-state mass of 22Si was obtained indirectly in the experiment for the first time. Two-proton separation energy for 22Si is deduced to be −108 (125) keV, which indicates that it is a very marginal candidate for two-proton ground-state emission.

Published

2017

6. A self-consistent method to analyze the effects of the positive Q-value neutron transfers on fusion

Author

H.M. Jia, C.J. Lin, L. Yang, X.X. Xu, N.R. Ma, L.J. Sun, F. Yang, Z.D. Wu, H.Q. Zhang, Z.H. Liu, and D.X. Wang

Subjects

Physics, QC1-999

Abstract

Considering the present limitation of the need for external parameters to describe the nucleus–nucleus potential and the couplings in the coupled-channels calculations, this work introduces an improved method without adjustable parameter to overcome the limitation and then sort out the positive Q-value neutron transfers (PQNT) effects based on the CCFULL calculations. The corresponding analysis for Ca+Ca, S,Ca+Sn, and S,Ca+Zr provides a reliable proof and a quantitative evaluation for the residual enhancement (RE) related to PQNT. In addition, the RE for S32,Ca40+Zr94 shows an unexpected larger enhancement than S32,Ca40+Zr96 despite the similar multi-neutron transfer Q-values. This method should rather strictly test the fusion models and be helpful for excavating the underlying physics. Keywords: Sub-barrier fusion, Coupled-channels effects, Positive Q-value neutron transfers, Residual enhancement

Published

2016

7. Oscillations above the barrier in the fusion of 28Si + 28Si

Author

G. Montagnoli, A.M. Stefanini, H. Esbensen, L. Corradi, S. Courtin, E. Fioretto, J. Grebosz, F. Haas, H.M. Jia, C.L. Jiang, M. Mazzocco, C. Michelagnoli, T. Mijatović, D. Montanari, C. Parascandolo, F. Scarlassara, E. Strano, S. Szilner, and D. Torresi

Subjects

Physics, QC1-999

Abstract

Fusion cross sections of 28Si + 28Si have been measured in a range above the barrier with a very small energy step (ΔElab=0.5 MeV). Regular oscillations have been observed, best evidenced in the first derivative of the energy-weighted excitation function. For the first time, quite different behaviors (the appearance of oscillations and the trend of sub-barrier cross sections) have been reproduced within the same theoretical frame, i.e., the coupled-channel model using the shallow M3Y + repulsion potential. The calculations suggest that channel couplings play an important role in the appearance of the oscillations, and that the simple relation between a peak in the derivative of the energy-weighted cross section and the height of a centrifugal barrier is lost, and so is the interpretation of the second derivative of the excitation function as a barrier distribution for this system, at energies above the Coulomb barrier. Keywords: Heavy-ion fusion, Sub-barrier cross sections, Coupled-channels model

Published

2015

8. Scattering of the halo nucleus 11Be from a lead target at 3.5 times the Coulomb barrier energy

Author

A. M. Moro, H. S. Xu, N.R. Ma, Hooi Jin Ong, Z. G. Hu, Dan-Yang Pang, H.K. Qi, Quan Liu, Y. H. Zhang, J. S. Wang, H.X. Li, J.S. Yao, Kun Wang, X. Liu, A. Di Pietro, Peng Ma, S.W. Xu, Shan Jin, H.M. Jia, F. F. Duan, Valdir Guimaraes, Youhua Yang, Jian-Ling Lou, Gang Yang, Li-Jie Sun, C.J. Lin, X. X. Xu, Zhen Bai, Xiaojuan Zhou, Q. Hu, D.X. Wang, X.X. Sun, J. B. Ma, Jin Lei, Zheng-Hang Sun, Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, European Union (UE). H2020, Ministerio de Ciencia, Innovación y Universidades (MICINN). España, National Natural Science Foundation of China, and National Key Research and Development Program of China

Subjects

Nuclear and High Energy Physics, Nuclear Theory, Coulomb barrier, Halo nucleus, 01 natural sciences, 7. Clean energy, Nuclear physics, Breakup reaction, XCDCC, 0103 physical sciences, Coulomb, Incident energy, Elastic scattering, Nuclear Experiment, 010306 general physics, Physics, Quasielastic scattering, 010308 nuclear & particles physics, Scattering, Breakup, lcsh:QC1-999, NÊUTRONS, CDCC, Breakup coupling effects, lcsh:Physics

Abstract

Angular distributions of quasielastic scattering and breakup of the neutron-rich halo nucleus 11Be on a 208Pb target at an incident energy of 140 MeV (about 3.5 times the Coulomb barrier) were measured at HIRFL-RIBLL. A strong suppression of the Coulomb nuclear interference peak is observed in the measured quasielastic scattering angular distribution. The result demonstrates for the first time the persistence of the strong breakup coupling effect reported so far for reaction systems involving neutron-halo nuclei at this relatively high incident energy. The measured quasielastic scattering cross sections are satisfactorily reproduced by continuum discretized coupled channel (CDCC) calculations as well as by the XCDCC calculations where the deformation of the 10Be core is taken into account. The angular and energy distributions of the 10Be fragments could also be well reproduced considering elastic breakup (CDCC and XCDCC) plus nonelastic breakup contributions, with the latter evaluated with the model by Ichimura, Austern and Vincent [1]. The comparison of the 10Be energy distributions with simple kinematical estimates evidence the presence of a significant post-acceleration effect which, in the (X)CDCC frameworks, is accounted for by continuum-continuum couplings. National Key Research and Development Program of China (Grant No. 2018YFA0404403) National Natural Science Foundation of China (Grant No. 11775013, No. 11947203, No. 11575256, and No. U1632138) Youth Innovation Promotion Association CAS (No. 2020411) Ministerio de Ciencia, Innovación y Universidades FIS2017-88410-P European Union’s Horizon 2020 (Grant Agreement No. 654002)

Published

2020

9. Observation of $β$-delayed two-proton emission in the decay of $^{22}$Si

Author

Yilin Wang, Youhua Yang, X. X. Xu, Ye-Ling Zhou, H. W. Wang, Min Wang, Y. H. Zhang, Mei Huang, Jie Wang, X.W. Ma, H. S. Xu, Peng Ma, H. L. Zang, C.Z. Shi, J. G. Li, N.R. Ma, Z. H. Li, Cenxi Yuan, Zhen Bai, D.X. Wang, L.J. Sun, H. J. Li, D. Q. Fang, Guang-Cheng Xiao, Xiaojuan Zhou, L. Yang, H.M. Jia, J. B. Ma, F. Yang, H.Q. Zhang, Y. G. Ma, Z. G. Hu, Xiuping Li, Jenny Lee, J. S. Wang, Kun Wang, Cheng-Jian Lin, Maowu Nie, Z.H. Liu, Miao Liu, S. Jin, J. G. Chen, Y. H. Lam, N. A. Smirnova, W.H. Ma, Cheng Li, Centre d'Etudes Nucléaires de Bordeaux Gradignan (CENBG), and Université Sciences et Technologies - Bordeaux 1-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Physics, Nuclear and High Energy Physics, Silicon, 010308 nuclear & particles physics, Nuclear Theory, chemistry.chemical_element, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, 7. Clean energy, lcsh:QC1-999, medicine.anatomical_structure, chemistry, 0103 physical sciences, medicine, Isobaric process, Atomic physics, Proton emission, 010306 general physics, Nuclear Experiment, Nucleus, lcsh:Physics, Energy (signal processing), Fermi Gamma-ray Space Telescope, Line (formation)

Abstract

International audience; The decay of the lightest nucleus with Tz=−3 , 22 Si, was studied by a silicon array. A charged-particle group at 5600 (70) keV in the decay-energy spectrum was identified experimentally as β -delayed two-proton emission from the isobaric analog state (IAS) of 22 Al. Experimental results of the IAS fed by a superallowed Fermi transition were compared with our large-scale shell-model calculations. The ground-state mass of 22 Si was obtained indirectly in the experiment for the first time. Two-proton separation energy for 22 Si is deduced to be −108 (125) keV, which indicates that it is a very marginal candidate for two-proton ground-state emission.

Published

2017

10. Evidence of intermittent fluctuation of target residue in 84Kr–AgBr interactions at 1.7 A GeV

Author

H.H. Zhao, Z.Y. Li, H.M. Jia, X.Q. Li, Fu-Hu Liu, Jun-Sheng Li, C.L. He, and D.H. Zhang

Subjects

Azimuth, Radiation, Fractal, law, Chemistry, Intermittency, Exponent, Emission spectrum, Atomic physics, Instrumentation, Fractal dimension, law.invention

Abstract

Intermittency and fractal behavior have been studied for emission spectra of target associated fragments from 84Kr–AgBr interactions at 1.7 A GeV in emission angle space and azimuthal angle space separately. Intermittent behavior is observed for both spaces. From the intermittency exponent, the anomalous fractal dimension d q is calculated and the variation of d q with the order q is investigated. It is found that the anomalous dimensions increase with the order of moments q thereby indicating the association of multifractility with production mechanism of target associated fragments.

Published

2008

11. Multifractal analysis of multiplicity fluctuations in 16O–emulsion interactions at 3.7 A GeV

Author

C.L. He, Z.Y. Li, H.H. Zhao, D.H. Zhang, X.Q. Li, H.M. Jia, Jun-Sheng Li, and Fu-Hu Liu

Subjects

Physics, Radiation, Multifractal system, Fractal dimension, Hadronization, Moment (mathematics), Fractal, Pseudorapidity, High Energy Physics::Experiment, Nuclear emulsion, Rapidity, Statistical physics, Nuclear Experiment, Instrumentation

Abstract

The fractal or intermittent behavior has been investigated for the non-peripheral collisions of 3.7 A GeV 16O with nuclear emulsion using the multifractals in the pseudorapidity and azimuthal angle spaces. The multifractal moments G q as a function of the bin size in pseudorapidity and the azimuthal angle spaces have been calculated. A power-law behavior has been observed in the data. The mass exponents increase, and the generalized dimensions of the fractal and the multifractals decrease with the rank of the moment increase in all the investigated spaces. The anomalous fractal dimension increases linearly with the increase of rank of moments for both spaces, indicates the cascading process of hadronization.

Published

2008

12. Interaction mean free paths of He fragments from 3.7A GeV 16O–emulsion collision

Author

C.L. He, H.H. Zhao, X.Q. Li, D.H. Zhang, Z.Y. Li, Fu-Hu Liu, Jun-Sheng Li, and H.M. Jia

Subjects

Physics, Radiation, Projectile, Mean free path, Nuclear Theory, chemistry.chemical_element, Collision, Ion, Nuclear physics, chemistry, Nuclear emulsion, Atomic physics, Multiplicity (chemistry), Impact parameter, Nuclear Experiment, Instrumentation, Helium

Abstract

The interaction mean free paths of helium projectile fragments produced by the collisions of 16 O at 3.7A GeV in nuclear emulsion have been investigated. In the present analysis, 1971 helium projectile fragments giving rise to 321 secondary interactions have been used. Within the present statistics, we do not observe any anomalous behavior in the mean free path of helium projectile fragments. The interaction mean free path is found to be independent of the impact parameter of collisions and the helium projectile fragments multiplicity.

Published

2008

13. Fusion of 28Si + 28Si: oscillations above the barrier and the behavior down to 1μb

Author

H.M. Jia, E. Fioretto, C. Parascandolo, F. Haas, Fernando Scarlassara, C. Michelagnoli, L. Corradi, M. Mazzocco, D. Montanari, Tea Mijatović, J. Grebosz, C. A. Ur, A. M. Stefanini, Suzana Szilner, G. Montagnoli, D. Torresi, E. Strano, and S. Courtin

Subjects

Excitation function, Physics, Fusion, Amplitude, fusion reaction, sub-barrier measurement, QC1-999, Coulomb barrier, Atomic physics, Excitation, Entrance channel

Abstract

Fusion excitation functions of light heavy-ion systems show oscillatory structures above the Coulomb barrier, caused by resonances or due to the penetration of successive centrifugal barriers well separated in energy. In heavier systems, the amplitude of oscillations decreases and the peaks get nearer to each other. This makes the measurements very challenging. We have performed a first experiment for 28Si + 28Si, by measuring fusion cross sections (σ) in an energy range of ≃15 MeV above the barrier, with a small ΔElab = 0.5 MeV step. Three regular oscillations are clearly observed, which are best revealed by plotting the energy-weighted derivative of the excitation function. The excitation function has been recently measured down to cross sections ≤1μb with larger energy steps. Coupled-channel (CC) calculations based on a shallow potential in the entrance channel are able to reproduce the oscillations. A further analysis will provide a stringent test for the calculations, in particular for the choice of the ion-ion potential, because the subbarrier excitation function has to be reproduced as well. Coupled-channel (CC) calculations based on a shallow potential in the entrance channel are able to reproduce the oscillations. A further analysis will provide a stringent test for the calculations, in particular for the choice of the ion-ion potential, because the subbarrier excitation function has to be reproduced as well.

Published

2014

14. Nuclear reactions studied by quasi-elastic measurements with high precision at backward angles

Author

S.T. Zhang, X.X. Xu, F. Yang, Z.H. Liu, H.M. Jia, Cheng-Jian Lin, and H.Q. Zhang

Subjects

Nuclear reaction, Fusion, Chemistry, Physics, QC1-999, Neutron, Atomic physics, Anomaly (physics), Breakup, Excitation

Abstract

The excitation functions of quasi-elastic scatterings at backward angles were measured with high precision to study the mechanisms of heavy-ion reactions at near- and sub-barrier energies. The surface diffuseness parameters for the 16 O+ 144,152,154 Sm, 170 Er, 174 Yb, 184,186 W, 194,196 Pt, and 208 Pb systems have been extracted by the single-channel and coupled-channels calculations, respectively. No anomaly was found in these quasi-elastic processes. The barrier heights and barrier distributions were systematically investigated for these systems. Moreover, the coupled-channels effects of neutron transfers with positive Q-value and the breakup effects of weakly-bound nuclei on the fusion processes were also studied for the 32 S+ 90,96 Zr systems and the 6,7 Li, 9 Be+ 208 Pb systems, respectively.

Published

2011

15. Multi-neutron transfer coupling in sub-barrier32S +90,96Zr fusion reactions

Author

A. Richard, C. Beck, H.Q. Zhang, C.J. Lin, F. Yang, H.M. Jia, X.X. Xu, Z.D. Wu, F. Jia, S.T. Zhang, and Z.H. Liu

Subjects

Coupling, Physics, Fusion, Nuclear Theory, QC1-999, FOS: Physical sciences, Coulomb barrier, Semiclassical physics, Molecular physics, Nuclear Theory (nucl-th), Transfer (computing), Nuclear fusion, Neutron, Nuclear Experiment, Excitation

Abstract

The role of neutron transfers is investigated in the fusion process below the Coulomb barrier by analyzing 32S+90Zr and 32S+96Zr as benchmark reactions. A full coupled-channel calculation of the fusion excitation functions has been performed for both systems by using multi-neutron transfer coupling for the more neutron-rich reaction. The enhancement of fusion cross sections for 32S+96Zr is well reproduced at sub-barrier energies by NTFus code calculations including the coupling of the neutron-transfer channels following the Zagrebaev semiclassical model. We found similar effects for 40Ca+90Zr and 40Ca+96Zr fusion excitation functions., Comment: Minor corrections, 11 pages, 4 figures, Fusion11 Conference, Saint Malo, France, 2-6 mai 2011

Published

2011

16. Correlations of two protons emitted from excited states of 28S and 27P

Author

Peng Ma, Guoqing Xiao, S. Z. Chen, J. B. Ma, Z.D. Wu, Xiangguo Lei, J.L. Han, F. Yang, L. Yang, H.M. Jia, Li-Jie Sun, Cheng-Jian Lin, Xiaojuan Zhou, Min Wang, Z. H. Liu, Mei Huang, Shi-Lun Jin, H. S. Xu, X. X. Xu, Huanqiao Zhang, Xinwen Ma, Z.G. Hu, Youhua Yang, Jian-Song Wang, P.F. Bao, Y. H. Zhang, Zhili Sun, and Na Zhang

Subjects

Physics, Nuclear and High Energy Physics, Proton, Branching fraction, Monte Carlo method, Nuclear Theory, medicine.anatomical_structure, Coincident, Phase space, Excited state, medicine, Halo, Atomic physics, Nuclear Experiment, Nucleus

Abstract

A contrastive research on two-proton (2p) emissions from excited states of the even-Z nucleus 28S and its one-proton daughter, the odd-Z nucleus 27P was performed by complete-kinematics measurements. The opening angles as well as relative momenta between two emitted protons and invariant masses of decaying systems were reconstructed through the event-by-event analysis of heavy fragments coincident with two protons. With the help of Monte Carlo simulations, results show a diproton-type decay with the branching ratio of 20 − 7 + 6 % for 28S while mainly three-body simultaneous decay in the phase space and/or 2p sequential emission for 27P. Present results show that the diproton correlations may result from the proton configuration in the initial state like 2p skin/halo structure rather than the deformed orbit.

17. 8B + 208Pb Elastic Scattering at Coulomb Barrier Energies.

Author

M. La Commara, M. Mazzocco, A. Boiano, C. Boiano, C. Manea, C. Parascandolo, D. Pierroutsakou, C. Signorini, E. Strano, D. Torresi, H. Yamaguchi, D. Kahl, P. Di Meo, J. Grebosz, N. Imai, Y. Hirayama, H. Ishiyama, N. Iwasa, S.C. Jeong, and H.M. Jia

Published

2018