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Journal articles on the topic 'Nucleon transfer reactions'

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Published: 4 June 2021
Last updated: 7 February 2022

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1

E. Escher, J., J. T. Burke, R. J. Casperson, R. O. Hughes, and N. D. Scielzo. "One-nucleon pickup reactions and compound-nuclear decays." EPJ Web of Conferences 178 (2018): 03002. http://dx.doi.org/10.1051/epjconf/201817803002.

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One-nucleon transfer reactions, long used as a tool to study the structure of nuclei, are potentially valuable for determining reaction cross sections indirectly. This is significant, as many reactions of interest to astrophysics and other applications involve short-lived isotopes and cannot be measured directly. We describe a procedure for obtaining constraints for calculations of neutron capture cross sections using observables from experiments with transfer reactions. As a first step toward demonstrating the method, we outline the theory developments used to properly describe the production of the compound nucleus 88Y* via the one-nucleon pickup reaction 89Y(p,d)88Y* and test the description with data from a recent experiment. We indicate how this development can be used to extract the unknown 87Y(n,γ) cross section from 89Y(p,dγ) data. The example illustrates a more generally applicable method for determining unknown cross sections via a combination of theory and transfer (or inelastic scattering) experiments.
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2

Love, W. G., Amir Klein, M. A. Franey, and K. Nakayama. "Nucleon charge-exchange reactions at intermediate energies." Canadian Journal of Physics 65, no. 6 (June 1, 1987): 536–48. http://dx.doi.org/10.1139/p87-077.

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The nucleon charge–exchange reaction is investigated as a probe of isovector modes of nuclear excitation at both small and large momentum transfer. The calculated and extracted properties of the isovector nucleon–nucleon interaction are discussed and illustrated with an emphasis on incident energies in excess of 100 MeV. Particular emphasis is placed on spin observables and the roles played by different parts of the nucleon–nucleon coupling in their determination. Recent measurements of transverse polarization transfer at 0° in the charge-exchange continuum are compared with distorted wave impulse approximation calculations using random–phase approximation transition densities.
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3

Szilner, S. "Probing nucleon-nucleon correlations in heavy-ion transfer reactions." EPJ Web of Conferences 117 (2016): 06007. http://dx.doi.org/10.1051/epjconf/201611706007.

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4

Szilner, S. "Probing nucleon-nucleon correlations via heavy ion transfer reactions." EPJ Web of Conferences 66 (2014): 03085. http://dx.doi.org/10.1051/epjconf/20146603085.

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5

Szilner, S. "Probing nucleon-nucleon correlations via heavy ion transfer reactions." EPJ Web of Conferences 86 (2015): 00059. http://dx.doi.org/10.1051/epjconf/20158600059.

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6

Mijatović, T., S. Szilner, L. Corradi, F. Galtarossa, D. Montanari, G. Pollarolo, P. Čolović, et al. "Nucleon-nucleon correlation studies in heavy-ion transfer reactions." Journal of Physics: Conference Series 1643 (December 2020): 012097. http://dx.doi.org/10.1088/1742-6596/1643/1/012097.

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7

Austern, N., and M. Kawai. "Theory of two-nucleon transfer reactions." Physical Review C 31, no. 4 (April 1, 1985): 1083–87. http://dx.doi.org/10.1103/physrevc.31.1083.

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8

Wimmer, K. "Nucleon transfer reactions with radioactive beams." Journal of Physics G: Nuclear and Particle Physics 45, no. 3 (February 2, 2018): 033002. http://dx.doi.org/10.1088/1361-6471/aaa2bf.

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9

ADAMIAN, G. G., N. V. ANTONENKO, R. V. JOLOS, S. P. IVANOVA, YU V. PALCHIKOV, T. M. SHNEIDMAN, A. ANDREEV, and W. SCHEID. "NUCLEAR MOLECULES." International Journal of Modern Physics E 16, no. 04 (May 2007): 1021–31. http://dx.doi.org/10.1142/s0218301307006472.

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The concept of a nuclear molecule or a dinuclear system assumes two touching nuclei which carry out motion in the internuclear distance and exchange nucleons by transfer. The corresponding model can be applied to nuclear structure, to fusion reactions leading to superheavy nuclei and to multi-nucleon transfer.
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10

Taddeucci, T. N. "Polarization transfer in (p, n) reactions." Canadian Journal of Physics 65, no. 6 (June 1, 1987): 557–65. http://dx.doi.org/10.1139/p87-079.

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Polarization-transfer studies for (p, n) reactions with normally polarized (N-type) beams have been pursued at the Indiana University Cyclotron Facility, Bloomington, IN, since 1983. A variety of targets having values of A ranging from 2 to 90 have been studied at 0° for bombarding energies between 80 and 200 MeV. Transitions to well-resolved final states in the lighter nuclei have yielded data that lend plausibility to distorted-wave impulse approximation interpretations of intermediate-energy nucleon–nucleus reactions. Measurements on heavier nuclei have revealed interesting nuclear-structure effects at high excitation energies.
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11

Zaky., M., and A. Kh Khawaldeh. "HEAVY IONS REACTIONS WITH TWO NUCLEON TRANSFER." International Journal of Advanced Research 5, no. 2 (February 28, 2017): 21–24. http://dx.doi.org/10.21474/ijar01/3111.

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12

Potel, Gregory, Andrea Idini, Francisco Barranco, Enrico Vigezzi, and Ricardo A. Broglia. "Pairing Interaction and Two-Nucleon Transfer Reactions." Nuclear Physics News 24, no. 1 (January 2, 2014): 19–25. http://dx.doi.org/10.1080/10619127.2013.855551.

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13

Berezhnoy, Yu A., and V. A. Slipko. "Polarization Phenomena in Inclusive Nucleon Transfer Reactions." International Journal of Modern Physics E 07, no. 06 (December 1998): 723–46. http://dx.doi.org/10.1142/s0218301398000415.

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The theory of the polarization phenomena in the inclusive one- and two-nucleon transfer reactions (d,n) and (3 H ,n) at intermediate energies is developed on the basis of the S-matrix approach. Since the parameters of the S-matrix are found from fitting the experimental data for the elastic scattering of protons by the nuclei, the calculated polarization observables of the neutrons released in reactions 40 Ca (d,n), 208 Pb (d,n), 40 Ca (3 H ,n) and 208 Pb (3 H ,n) in the wide energy region do not have any free parameters.
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14

Rafferty, D. C., M. Dasgupta, D. J. Hinde, C. Simenel, K. J. Cook, I. P. Carter, D. H. Luong, et al. "Investigating energy dissipation through nucleon transfer reactions." EPJ Web of Conferences 91 (2015): 00010. http://dx.doi.org/10.1051/epjconf/20159100010.

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15

Regan, P. H., J. J. Valiente-Dobón, C. Wheldon, C. Y. Wu, J. F. Smith, A. O. Macchiavelli, D. Cline, et al. "Production of exotic nuclear isomers in multi-nucleon transfer reactions." Laser Physics Letters 1, no. 6 (June 1, 2004): 317–24. http://dx.doi.org/10.1002/lapl.200410073.

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16

Santopinto, E., R. I. Magana Vsevolodovna, and H. García-Tecocoatzi. "Two-nucleon transfer and Double Charge Exchange reactions." Journal of Physics: Conference Series 1056 (July 2018): 012053. http://dx.doi.org/10.1088/1742-6596/1056/1/012053.

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17

Nishio, Katsuhisa, Kentaro Hirose, Vermeulen Mark, Hiroyuki Makii, Riccardo Orlandi, Kazuaki Tsukada, Masato Asai, et al. "Study of fission using multi-nucleon transfer reactions." EPJ Web of Conferences 163 (2017): 00041. http://dx.doi.org/10.1051/epjconf/201716300041.

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18

Nishio, Katsuhisa, Kentaro Hirose, Mark Vermeulen, Hiroyuki Makii, Riccardo Orlandi, Kazuaki Tsukada, Masato Asai, et al. "Study of fission using multi-nucleon transfer reactions." EPJ Web of Conferences 169 (2018): 00013. http://dx.doi.org/10.1051/epjconf/201816900013.

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Multi-nucleon transfer channels of the reactions of 18O+232Th, 18O+238U, 18O+248Cm were used to measure fission-fragment mass distribution for various nuclides and their excitation energy dependence. Predominantly asymmetric fission is observed at low excitation energies for all the studied cases, with an increase of the symmetric fission towards high excitation energies. Experimental data are compared with predictions of the fluctuation-dissipation model, where effects of multi-chance fission (neutron evaporation prior to fission) was introduced. It was shown that a reliable understanding of the observed fission fragment mass distributions can be obtained only invoking multi-chance fissions.
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19

Nishio, Katsuhisa, Kentaro Hirose, Romain Léguillon, Hiroyuki Makii, Riccardo Orlandi, Kazuaki Tsukada, James Smallcombe, et al. "Experimental fission study using multi-nucleon transfer reactions." EPJ Web of Conferences 146 (2017): 04009. http://dx.doi.org/10.1051/epjconf/201714604009.

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20

Wuosmaa, A. H., K. E. Rehm, J. P. Greene, D. J. Henderson, R. V. F. Janssens, C. L. Jiang, L. Jisonna, et al. "Nucleon transfer reactions with exotic beams at ATLAS." European Physical Journal Special Topics 150, no. 1 (November 2007): 79–82. http://dx.doi.org/10.1140/epjst/e2007-00271-y.

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21

Fernandes, M. A. G., B. L. Burks, D. J. Horen, G. R. Satchler, R. L. Auble, F. E. Bertrand, J. L. Blankenship, et al. "One-nucleon-transfer reactions induced by 352-MeVO18onSi28." Physical Review C 33, no. 6 (June 1, 1986): 1971–82. http://dx.doi.org/10.1103/physrevc.33.1971.

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22

Fernandes, M. A. G., F. E. Bertrand, R. L. Auble, R. O. Sayer, B. L. Burks, D. J. Horen, E. E. Gross, J. L. Blankenship, D. Shapira, and M. Beckerman. "Single-nucleon transfer reactions induced by 376-MeVO17onPb208." Physical Review C 36, no. 1 (July 1, 1987): 108–14. http://dx.doi.org/10.1103/physrevc.36.108.

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23

Birbrair, B. L., and V. I. Ryazanov. "Doorway states for one-nucleon-transfer reactions and nuclear correlation energy." Physics of Atomic Nuclei 67, no. 7 (July 2004): 1277–81. http://dx.doi.org/10.1134/1.1777283.

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24

Bhat, C. M., T. B. Clegg, H. J. Karwowski, and E. J. Ludwig. "D-state amplitudes of three-nucleon systems using single-nucleon transfer reactions." Physical Review C 37, no. 3 (March 1, 1988): 1358–61. http://dx.doi.org/10.1103/physrevc.37.1358.

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25

Austin, Sam M., N. Anantaraman, and J. S. Winfield. "Heavy-ion reactions as spin probes." Canadian Journal of Physics 65, no. 6 (June 1, 1987): 609–13. http://dx.doi.org/10.1139/p87-086.

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Heavy-ion reactions can be powerful probes for spin-transfer strength in nuclei, provided their reaction mechanism is simple so that a correlation can be established between cross sections and the relevant matrix elements. We discuss the desirable features of heavy-ion reactions in general and a series of tests of reaction mechanisms that have been carried out for two of the most favorable reactions; (6Li, 6He) and (12C, 12N). We establish that the (6Li, 6He) reaction is one-step in nature above 25 MeV∙nucleon−1 and establish a calibration function relating cross sections and Gamow–Teller matrix elements. We also find that the (12C, 12N) reaction is likely to be dominated by the one-step process above about 50 MeV∙nucleon−1.
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26

Bohlen, H. G., A. Blazevicˇ, B. Gebauer, W. Von Oertzen, S. Thummerer, R. Kalpakchieva, S. M. Grimes, and T. N. Massey. "Spectroscopy of exotic nuclei with multi-nucleon transfer reactions." Progress in Particle and Nuclear Physics 42 (January 1999): 17–26. http://dx.doi.org/10.1016/s0146-6410(99)00056-3.

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27

Monaco, L. Lo, and D. M. Brink. "Perturbation approach to nucleon transfer in heavy-ion reactions." Journal of Physics G: Nuclear Physics 11, no. 8 (August 1985): 935–52. http://dx.doi.org/10.1088/0305-4616/11/8/010.

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28

Takigawa, N., S. Yoshida, K. Hagino, and S. K. Patra. "Multi-nucleon transfer reactions and fusion with unstable nuclei." Nuclear Physics A 588, no. 1 (May 1995): c91—c97. http://dx.doi.org/10.1016/0375-9474(95)00105-a.

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29

Birbrair, B. L., and V. I. Ryazanov. "Theory of doorway states for one-nucleon-transfer reactions." Physics of Atomic Nuclei 63, no. 10 (October 2000): 1753–62. http://dx.doi.org/10.1134/1.1320145.

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30

Bayman, B. F. "A Glauber-model approach to one-nucleon transfer reactions." Physics Reports 264, no. 1-5 (January 1996): 39–45. http://dx.doi.org/10.1016/0370-1573(95)00025-9.

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31

Roy, B. J., B. Srinivasan, M. G. Betigeri, H. C. Jain, and M. L. Jhingan. "Investigation of multi-nucleon transfer reactions in 12C + 115In." Nuclear Physics A 597, no. 1 (January 1996): 151–62. http://dx.doi.org/10.1016/0375-9474(95)00443-2.

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32

Datta, T., S. P. Dange, and H. Naik. "Single nucleon transfer reactions near Coulomb barrier on 197Au." Journal of Radioanalytical and Nuclear Chemistry 266, no. 1 (October 2005): 79–81. http://dx.doi.org/10.1007/s10967-005-0872-9.

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33

Marta, H. D., R. Donangelo, D. Tomasi, J. O. Fernández Niello, and A. J. Pacheco. "Effect of nuclear absorption on nucleon transfer probabilities in heavy-ion reactions." Physical Review C 54, no. 6 (December 1, 1996): 3156–59. http://dx.doi.org/10.1103/physrevc.54.3156.

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34

Lukyanov, S., T. Issatayev, B. M. Hue, V. Maslov, K. Mendibayev, S. S. Stukalov, D. Aznabayev, A. Shakhov, K. A. Kuterbekov, and A. M. Kabyshev. "Neutron pick-up reactions in 18O (10 MeV/nucleon) + Ta." Eurasian Journal of Physics and Functional Materials 4, no. 4 (December 25, 2020): 274–80. http://dx.doi.org/10.29317/ejpfm.2020040401.

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The availability of new radioactive ion beams has broadened the study of nuclear reactions and nuclear structure. The main mechanism to produce the secondary beams is the fragmentation of the projectile. An alternative method for the production of the exotic nuclei is the multinucleon transfer. We measured production cross section for the B, C, N and O isotopes in the reaction 18O + Ta and the beam energy at 10 MeV/nucleon. The cross-sections were obtained by integrating the momentum distributions of the isotopes. It was shown that in deep inelastic processes the production yields of different isotopes could be well described using statistical models and could also be explained by the Qgg-systematic.
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35

Barranco, Francisco, Ricardo A. Broglia, Gregory Potel, and Enrico Vigezzi. "Structure and reactions of N=7 isotones: parity inversion and transfer processes." EPJ Web of Conferences 223 (2019): 01005. http://dx.doi.org/10.1051/epjconf/201922301005.

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The interplay of particle and vibrations in N=7 isotones is considered according to nuclear field theory, focusing on the main many-body effects which renormalise the energy spectrum of the halo nucleus 11Be, leading to parity inversion and to renormalization of the form facto s determining the cross sections associated with one-nucleon transfer reactions.
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36

Farra, A. A. "Multi-interaction of multi-nucleon transfer reactions in the whole-angle region." Canadian Journal of Physics 74, no. 3-4 (March 1, 1996): 150–54. http://dx.doi.org/10.1139/p96-024.

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Heavy-ion transfer reactions are studied using the exact finite-range DWBA (distorted wave Born approximation) calculations. To investigate the differential cross sections in the whole-angle region the reaction mechanism is considered as a coherent sum of direct and exchange processes. Both the double-folding microscopic nucleon–nucleon interaction and phenomenological Woods–Saxon form are used for the real and imaginary distorting potentials in the initial and final channels, respectively. The present calculations are in good agreement with the experimental data in the whole angular range. The inclusion of the exchange process improves the cross section's magnitude explicitly and leads to a better description of the backward oscillations. The values of the extracted normalization coefficients obtained are reasonable.
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37

Hào, Trần Viết Nhân. "FISSION CROSS SECTION IN THE SYNTHESIS OF THE 264Rf NUCLEUS VIA 26Mg+238U COMBINATION." Hue University Journal of Science: Natural Science 127, no. 1A (August 6, 2018): 95. http://dx.doi.org/10.26459/hueuni-jns.v127i1a.4830.

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Our understanding of the fission mechanism has been still limited up to date, especially, for mass distribution of heavy nuclei or actinide ones. Since the heavy isotopes on the neutron-rich side of the nuclear chart cannot be accessed via capture reactions, it is thought that the mechanism can be studied via compound nuclei produced by multi-nucleon transfer reactions. In which, the fission process should be understood. In this report we mention the role of the transfer reaction <sup>26</sup>Mg + <sup>238</sup>U and an estimation of the cross section of the fission leds by the compound nucleus, <sup>264</sup>Rf.
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38

Leitner, W., and H. Müther. "A shell-model study of nuclear form factors for multi-nucleon transfer reactions." Nuclear Physics A 469, no. 1 (July 1987): 61–76. http://dx.doi.org/10.1016/0375-9474(87)90085-6.

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39

Fortier, S., S. Gales, Sam M. Austin, W. Benenson, G. M. Crawley, C. Djalali, J. S. Winfield, and G. Yoo. "One-nucleon-transfer reactions induced byNe20at 500 and 600 MeV." Physical Review C 41, no. 6 (June 1, 1990): 2689–97. http://dx.doi.org/10.1103/physrevc.41.2689.

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40

Amzal, N., J. F. C. Cocks, P. A. Butler, K. J. Cann, P. T. Greenlees, G. D. Jones, S. Asztalos, et al. "Spectroscopic study of228-234Th nuclei using multi-nucleon transfer reactions." Journal of Physics G: Nuclear and Particle Physics 25, no. 4 (January 1, 1999): 831–34. http://dx.doi.org/10.1088/0954-3899/25/4/048.

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41

Nishio, Katsuhisa, Kentaro Hirose, R. Léguillon, Hiroyuki Makii, Ichiro Nishinaka, Riccardo Orlandi, James Smallcombe, et al. "Fission Study of Actinide Nuclei Using Multi-nucleon Transfer Reactions." Physics Procedia 64 (2015): 140–44. http://dx.doi.org/10.1016/j.phpro.2015.04.018.

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42

Sultanov, Renat A., and D. Guster. "Few-body semiclassical approach to nucleon transfer and emission reactions." EPJ Web of Conferences 69 (2014): 00009. http://dx.doi.org/10.1051/epjconf/20136900009.

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43

Micek, S., H. Rebel, H. J. Gils, H. Klewe-Nebenius, S. Zagromski, and D. K. Srivastava. "Single nucleon transfer reactions in6Li+6Li collisions at 156 MeV." Zeitschrift f�r Physik A Atomic Nuclei 328, no. 4 (December 1987): 467–73. http://dx.doi.org/10.1007/bf01289633.

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44

Boer, F. W. N., H. J. Wollersheim, H. Emling, H. Grein, E. Grosse, W. Spreng, G. Eckert, Th W. Elze, K. Stelzer, and Ch Lauterbach. "Nucleon transfer reactions to rotational states induced by206, 208Pb projectiles." Zeitschrift f�r Physik A Atomic Nuclei 325, no. 4 (December 1986): 457–66. http://dx.doi.org/10.1007/bf01290049.

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45

Zhu, P. Y. "U 6/20 supersymmetry scheme and one-nucleon-transfer reactions." Il Nuovo Cimento A 90, no. 3 (December 1985): 308–14. http://dx.doi.org/10.1007/bf02730407.

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46

Kajumov, Sh S., A. M. Mukhamedzhanov, and R. Yarmukhamedov. "Dispersion theory of nucleon transfer reactions induced by heavy ions." Zeitschrift f�r Physik A Atomic Nuclei 331, no. 3 (September 1988): 315–22. http://dx.doi.org/10.1007/bf01355603.

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47

Patel, Hari S., B. Srinivasan, B. J. Roy, and M. G. Betigeri. "Investigation of two- and three-nucleon transfer reactions in12C +56Fe." Pramana 51, no. 3-4 (September 1998): 433–43. http://dx.doi.org/10.1007/bf02828936.

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48

Pearce, K. I., N. M. Clarke, R. J. Griffiths, P. J. Simmonds, D. Barker, J. B. A. England, M. C. Mannion, and C. A. Ogilvie. "36 MeV triton inelastic scattering and one-nucleon transfer reactions." Nuclear Physics A 467, no. 2 (June 1987): 215–39. http://dx.doi.org/10.1016/0375-9474(87)90527-6.

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49

Abdulvahabova, S. G., and I. G. Afandyeva. "Population of 0+ Excited States in Two-Nucleon Transfer Reactions." Russian Physics Journal 64, no. 3 (July 2021): 504–8. http://dx.doi.org/10.1007/s11182-021-02356-9.

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50

Watanabe, Yutaka, Yoshikazu Hirayama, Momo Mukai, Murad Ahmed, Yutaka Kakiguchi, Hiroari Miyatake, Michihiro Oyaizu, et al. "Experimental studies of neutron-rich nuclei around N = 126 at KEK isotope separation system." EPJ Web of Conferences 223 (2019): 01069. http://dx.doi.org/10.1051/epjconf/201922301069.

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Nuclear parameters such as lifetimes and masses of the waiting point nuclei of r-process nucleosynthesis are significant to investigate its astrophysical environment. However, the difficulty in the production of extremely neutron-rich nuclei at the 126 neutron closed shell makes their experimentalstudies unfeasible. Therefore, the theoretical nuclear models play crucial roles in the simulation of the r-process nucleosynthesis. The systematic nuclear spectroscopy of the neutron-rich nuclei around the 126 neutron closed shell provides significant inputs to those theoretical models to improve their predictability for the waiting point nuclei. We are developing KEK Isotope Separation System (KISS) to perform the systematic nuclear spectroscopy of those neutron-rich nuclei. The nuclei of interest are produced by multi-nucleon transfer reactions between 136Xe and 198Pt. The experimental study demonstrated its promising potential to produce them. We have successfully performed the β­γ spectroscopy and the laser ionization spectroscopy at KISS using the nuclear production by the multi-nucleon transfer reactions.
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