Role of Neutron Transfers in Initiating Near-barrier Fusion of Heavy-ions

JIA Huiming; LIN Chengjian; YANG Lei; XU Xinxing; YANG Feng; MA Nanru; SUN Lijie; WANG Dongxi; LIU Zuhua; ZHANG Huanqiao

doi:10.11804/NuclPhysRev.34.03.361

Volume 34 Issue 3

Jul. 2017

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Article Navigation > Nuclear Physics Review > 2017 > 34(3): 361-369

JIA Huiming, LIN Chengjian, YANG Lei, XU Xinxing, YANG Feng, MA Nanru, SUN Lijie, WANG Dongxi, LIU Zuhua, ZHANG Huanqiao. Role of Neutron Transfers in Initiating Near-barrier Fusion of Heavy-ions[J]. Nuclear Physics Review, 2017, 34(3): 361-369. doi: 10.11804/NuclPhysRev.34.03.361

Citation:

JIA Huiming, LIN Chengjian, YANG Lei, XU Xinxing, YANG Feng, MA Nanru, SUN Lijie, WANG Dongxi, LIU Zuhua, ZHANG Huanqiao. Role of Neutron Transfers in Initiating Near-barrier Fusion of Heavy-ions[J]. Nuclear Physics Review, 2017, 34(3): 361-369. doi: 10.11804/NuclPhysRev.34.03.361

Role of Neutron Transfers in Initiating Near-barrier Fusion of Heavy-ions

doi: 10.11804/NuclPhysRev.34.03.361

China Institute of Atomic Energy, Beijing 102413, China

Funds: National Basic Research Program of China(973 Program) (2013CB834404); National Natural Science Foundation of China(11375268, 11475263, U1432246, U1432127, 11505293, 11635015)

Received Date: 2017-04-29
Rev Recd Date: 2017-08-30
Publish Date: 2017-07-18

Abstract

The effect of neutron transfers on near-and sub-Coulomb-barrier fusion of heavy-ions is still a complicated and controversial problem. This paper reviews the recent experimental results of the fusion excitation functions of several typical systems, which have been measured by using an electrostatic deflector setup at the HI-13 tandem accelerator of CIAE. Both the neutron pickup and stripping effects were studied. Moreover, a self-consistent method to reliably isolate the transfer effect quantitatively based on the coupledchannels calculation is proposed. These studies give a further support for the neutron transfer effect on sub-barrier fusion of heavy-ions and its complexity. Further experimental and theoretical studies are needed for clarifying the relevant reaction mechanisms.
- near-barrier fusion of heavy-ion,
- reaction dynamic,
- coupled-channels effect,
- positive Q-value neutron transfer effect

References

[1]	CANTO L F, GOMES P R S, DONANGELO R, et al. Phys Rep, 2015, 596; 1.
[2]	BACK B B, ESBENSEN H, JIANG C L, et al. Rev Mod Phys, 2014, 86:317.
[3]	HAGINO K, TAKIGAWA N. Prog Theor Phys, 2012, 128:1061.
[4]	CANTO L F, GOMES P R S, DONANGELO R, et al. Phys Rep, 2006, 424:1.
[5]	BALANTEKIN A B, TAKIGAWA N. Rev Mod Phys, 1998, 70:77.
[6]	REISDORF W. J Phys G, 1994, 20:1297.
[7]	VAZ LOUIS C, ALEXANDER JOHN M, SATCHLER G R. Phys Rep, 1981, 69:373.
[8]	OGANESSIAN YU TS, et al. Phys Rev C, 2011, 83:054315.
[9]	HOFMANN S, MÜNZENBERG G. Rev Mod Phys, 2000, 72:733.
[10]	ZHANG Z Y, GAN Z G, MA L, et al. Chin Phys Lett, 2012, 29:012502.
[11]	SPILLANE T, RAIOLA F, ROLFS C, et al. Phys Rev Lett, 2007, 98:122501.
[12]	CUMMING A, BILDSTEN L. Astrophys J Lett, 2001, 559:L127.
[13]	GAMOW G. Nature, 1928, 122:805.
[14]	HILL D L, WHEELER J A. Phys Rev, 1953, 89:1102.
[15]	WONG C Y. Phys Rev Lett, 1973, 31:766.
[16]	STOKSTAD R G, EISEN Y, KAPLANIS S, et al. Phys Rev Lett, 1978, 41, 465.
[17]	ROWLEY N, SATCHLER G, STELSON P. Phys Lett B, 1991, 254:25.
[18]	WEI J X, LEIGH J R, HINDE D J, et al. Phys Rev Lett, 1991, 67:3368.
[19]	HAGINO K, ROWLEY N, KRUPPA A T. Comp Phys Commun 1999, 123:143.
[20]	STOKSTAD R G, EISEN Y, KAPLANIS S, et al. Phys Rev C, 1980, 21:2427.
[21]	STEFANINI A M, ACKERMANN D, CORRADI L, et al. Phys Rev Lett, 1995, 74:864.
[22]	BECKERMAN M, SALOMAA M, SPERDUTO A, et al. Phys Rev Lett, 1980, 45:1472.
[23]	SONZOGNI A A, BIERMAN J D, KELLY M P, et al. Phys Rev C, 1998, 57:722.
[24]	BOURGIN D, COURTIN S, HASS F, et al. Phys Rev C, 2014, 90:044610.
[25]	PRASAD N V S V, VINODKUMAR A M, SINHA A K, et al. Nucl Phys A, 1996, 603:176.
[26]	WU Y W, LIU Z H, LIN C J, et al. Phys Rev C, 2003, 68:044605.
[27]	DASGUPTA M, HINDE D J, BUTT R D, et al. Phys Rev Lett, 1999, 82:1395.
[28]	HINDE D J, DASGUPTA M, FULTON B R, et al. Phys Rev Lett, 2002, 89:272701.
[29]	FANG Y D, GOMES P R S, LUBIAN J, et al. Phys Rev C, 2015, 91:014608.
[30]	KIM KA-HAE, OTSUKA TAKAHARU, TOHYAMA MITSURU. Phys Rev C, 1994, 50:R566.
[31]	TAKIGAWA N, SAGAWA H. Phys Lett B, 1991, 265:23.
[32]	HUSSEIN M S, Phys Rev C, 1991, 44:446.
[33]	DIAZ-TORRES A, THOMPSON I J. Phys Rev C, 2002, 65:024606.
[34]	JIANG C L, ESBENSEN H, REHM K E, et al. Phys Rev Lett, 2002, 89:052701.
[35]	LIN C J. Phys Rev Lett, 2003, 91:229201.
[36]	MIŞICU Ş, ESBENSEN H. Phys Rev Lett, 2006, 96:112701.
[37]	BURBIDGE E M, BURBIDGE G R, FOWLER W A, et al. Rev Mod Phys, 1957, 29:547.
[38]	WANG N, LI Z X, WU X Z. Phys Rev C, 2002, 65:064608.
[39]	WEN K, SAKATA F, LI Z X, et al. Phys Rev Lett, 2013, 111:012501.
[40]	SIMENEL C, DASGUPTA M, HINDE D J, et al. Phys Rev C, 2013, 88:064604.
[41]	SARGSYAN V V, ADAMIAN G G, ANTONENKO N V, et al. Phys Rev C, 2015, 91:014613.
[42]	LIU Z H, BAO J D. Phys Rev C, 2013, 87:034616.
[43]	ADAMIAN G G, ANTONENKO N V, SCHEID W, et al. Nucl Phys A, 1998, 633:409.
[44]	SHEN C W, KOSENKO G, ABE Y. Phys Rev C, 2002, 66:061602(R).
[45]	MUKHERJEE A, DASGUPTA M, HINDE D J, et al. Phys Rev C, 2002, 66:034607.
[46]	BROGLIA R A, DASSO C H, LANDOWNE S, et al. Phys Rev C, 1983, 27:R2433.
[47]	BROGLIA R A, DASSO C H, LANDOWNE S, et al. Phys Lett B, 1983, 133:34.
[48]	REHM K E, WOLFS F L H, VAN DEN BERG A M, et al. Phys Rev Lett, 1985, 55:280.
[49]	GOMES P R S, MACIEL A M M, ANJOS R M, et al. J Phys G, 1997, 23:1315.
[50]	HENNING W, WOLFS F L H, SCHIFFER J P, et al. Phys Rev Lett, 1987, 58:318.
[51]	STELSON P H. Phys Lett B, 1988, 205:190.
[52]	DASSO C H, POLLAROLO G. Phys Lett B, 1985, 155:223.
[53]	DASSO C H, VITTURI A. Phys Lett B, 1986, 179:337.
[54]	ESBENSEN H, JIANG C L, REHM K E. Phys Rev C, 1998, 57:2401.
[55]	DIRAC P A M. Math Proc Cambridge Philos Soc, 1930, 26:361.
[56]	NEGELE J W. Rev Mod Phys, 1982, 54:913.
[57]	VO-PHUOC K, SIMENEL C, SIMPSON E C. Phys Rev C, 2016, 94:024612.
[58]	KESER R, UMAR A S, OBERACKER V E, Phys Rev C, 2012, 85:044606.
[59]	GODBEY K, UMAR A S, SIMENEL C. Phys Rev C, 2017, 95:011601(R).
[60]	MAGIERSKI PIOTR, SEKIZAWA KAZAYUKI, WLAZ LOWSKI GABRIEL. Phys Rev Lett, 2017, 119:042501.
[61]	RAABE R, SIDA J L, CHARVET J L, et al. Nature, 2004, 431:823.
[62]	LEMASSON A, SHRIVASTAVA A, NAVIN A, et al. Phys Rev Lett, 2009, 103:232701.
[63]	CARNELLI P F F, ALMARAZ-CALDERON S, REHM K E, et al. Phys Rev Lett, 2014, 112:192701.
[64]	HINDE D, DASGUPTA M. Nature, 2004, 431:784.
[65]	BECKERMAN M. Phys Rep, 1985, 129:145.
[66]	BECKERMAN M. Rep Prog Phys, 1988, 51:1047.
[67]	REISDORF W, HESSBERGER F P, HILDENBRAND K D, et al. Phys Rev Lett, 1982, 49:1811.
[68]	KOHLEY Z, LIANG J F, SHAPIRA D, et al. Phys Rev Lett, 2011, 107:202701.
[69]	GAVRON A. Phys Rev C, 1980, 21:230.
[70]	BEGHINI S, SIGNORINI C, LUNARDI S, et al. Nucl Instr Meth A, 1985, 239:585.
[71]	WEI J X, LEIGH J R, WEISSER D C, et al. Nucl Instr Meth A, 1991, 306:557.
[72]	AGUILERA E F, MARTINEZ-QUIROZ E, AMADORVALENZUELA P, et al. Phys Rev C, 2017, 96:024616.
[73]	ZHANG H Q, LIN C J, YANG F, et al. Chin Phys C, 2010, 34:1628.
[74]	JIA H M, LIN C J, YANG F, et al. Phys Rev C, 2014, 89:064605.
[75]	ZHANG H Q, LIN C J, YANG F, et al. Phys Rev C, 2010, 82:054609.
[76]	JIA H M, LIN C J, YANG L, et al. Phys Lett B, 2016, 755:43.
[77]	TIMMERS H, ACKERMANN D, BEGHINI S, et al. Nucl Phys A, 1998, 633:421.
[78]	MONTAGNOLI G, BEGHINI S, SCARLASSARA F, et al. Euro Phys J A, 2002, 15:351.
[79]	STEFANINI A M, BEHERA B R, BEGHINI S, et al. Phys Rev C, 2007, 76:014610.
[80]	ZAGREBAEV V I. Phys Rev C, 2003, 67:061601(R).
[81]	POLLAROLO G, WINTHER A. Phys Rev C, 2000, 62:054611.
[82]	SARGSYAN V V, ADAMIAN G G, ANTONENKO N V, et al. Phys Rev C, 2011, 84:064614.
[83]	ALJUWAIR H A, LEDOUX R J, BECKERMAN M, et al. Phys Rev C, 1984, 30:1223.
[84]	TROTTA M, STEFANINI A M, CORRADI L, et al. Phys Rev C, 2001, 65:011601(R).
[85]	SCARLASSARA F, BEGHINI S, MONTAGNOLI G, et al. Nucl Phys A, 2000, 672:99.
[86]	KOLATA J J, ROBERTS A, HOWARD A M, et al. Phys Rev C, 201285:054603.
[87]	LIANG J F, ALLMOND J M, GROSS C J, et al. Phys Rev C, 2016, 94:024616.
[88]	STEFANINI A M, MONTAGNOLI G, SCARLASSARA F, et al. Euro Phys J A, 2013, 49:63.
[89]	WU C Y, VON OERTZEN W, CLINE D, et al. Annu Rev Nucl Part Sci, 1990, 40:285.
[90]	BENJELLOUN M, GALSTER W, VERVIER J. Nucl Phys A, 1993, 560:715.
[91]	JACOBS P, FRAENKEL Z, MAMANE G, et al. Phys Lett B, 1986, 175:271.
[92]	STEFANINI A M, FORTUNA G, PENGO R, et al. Phys Lett B, 1985, 162:66.
[93]	STEFANINI A M, FORTUNA G, PENGO R, et al. Nucl Phys A, 1986, 456:509.
[94]	BOND P D, KORNER H J, LEMAIRE M C, et al. Phys Rev C, 1977, 16:177.
[95]	AGUILERA E F, KOLATA J J, TIGHE R J. Phys Rev C, 1995, 52:3103.
[96]	JIA H M, LIN C J, YANG F, et al. Phys Rev C, 2012, 86:044621.
[97]	BORGES A M, DA SILVA C P, PEREIRA D, et al. Phys Rev C, 1992, 46:2360.
[98]	PEREIRA D, SILVA C P, LUBIAN J, et al. Phys Rev C, 2006, 73:014601.
[99]	ROSSI E S JR, CHAMON L C, PEREIRA D, et al. J Phys G, 1997, 23:1473.
[100]	SIMÕES R F, MONTEIRO D S, ONO L K, et al. Phys Lett B, 2002, 527:187.
[101]	STEFANINI A M, FORTUNA G, TIVELLI A, et al. Phys Rev C, 1984, 30:2088.
[102]	CORRADI L, HE J H, ACKERMANN D, et al. Phys Rev C, 1996, 54:201.
[103]	POLLAROLO G, BROGLIA R A, WINTHER A. Nucl Phys A, 1983, 406:369.
[104]	QUESADA J M, POLLAROLO G, BROGLIA R A, et al. Nucl Phys A, 1985, 442:381.
[105]	ASCUITTO R J, SEGLIE E A. Treatise on Heavy-ion Science[M]. BROMLEY D A, ed. New York:Plenum Press, 1984, Vol. 1, Chap. 5.
[106]	CORRADI L, SKORKA S J, LENZ U, et al. Z Phys A, 1990, 334:55.
[107]	REHM K E. Annu Rev Nucl Part Sci, 1991, 41:429.
[108]	LIANG J F, LEE L L JR, MAHON J C, et al. Phys Rev C, 1994, 50:1550.
[109]	CORRADI L, SKORKA S J, WINKELMANN T, et al. Z Phys A, 1993, 346:217.
[110]	JIANG C L, REHM K E, BACK B B, et al. Phys Rev C, 2014, 89:051603(R).
[111]	MAHON J C, LEE L L JR, LIANG J F, et al. J Phys G, 1997, 23:1215.
[112]	TIMMERS H, LEIGH J R, DASGUPTA M, et al. Nucl Phys A, 1995, 584:190.
[113]	ZAGREBAEV V I. Phys Rev C, 2008, 78:047602.
[114]	MITSUOKA S, IKEZOE H, NISHIO K, et al. Phys Rev Lett, 2007, 99:182701.
[115]	NTSHANGASE S S, ROWLEY N, BARK R A, et al. Phys Lett B, 2007, 651:27.
[116]	JIA H M, LIN C J, ZHANG H Q, et al. Phys Rev C, 2010, 82:027602.
[117]	SEKIZAWA K, YABANA K. Phys Rev C, 2013, 88:014614.
[118]	WOLSKI ROMAN. Phys Rev C, 2013, 88:041603(R).
[119]	BECKERMAN M, SALOMAA M, SPERDUTO A, et al. Phys Rev C, 1982, 25:837.
[120]	DIGREGORIO D E, DITADA M, ABRIOLA D, et al. Phys Rev C, 1989, 39:516.
[121]	CANTO L F, GOMES P R S, LUBIAN J, et al. J Phys G, 2009, 36:015109.
[122]	GOMES P R S, LUBIAN J, PADRON I, et al. Phys Rev C, 2005, 71:017601.
[123]	BIRKHAN J, MIORELLI M, BACCA S, et al. Phys Rev Lett, 2017, 118:252501.
[124]	AKYÜZ Ö, WINTHER A. Nuclear Structure and Heavy-ion Reactions//BROGLIA R A, RICCI R A (Eds.), Proceedings of the International School of Physics "Enrico Fermi," Course LXXVⅡ, Varenna, North-Holland, Amsterdam, 1981.
[125]	BIERMAN J D, CHAN P, LIANG J F, et al. Phys Rev Lett, 1996, 76:1587.

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Role of Neutron Transfers in Initiating Near-barrier Fusion of Heavy-ions

China Institute of Atomic Energy, Beijing 102413, China

Funds: National Basic Research Program of China(973 Program) (2013CB834404); National Natural Science Foundation of China(11375268, 11475263, U1432246, U1432127, 11505293, 11635015)

Received Date: 2017-04-29

Rev Recd Date: 2017-08-30

Publish Date: 2017-07-18

Key words:

near-barrier fusion of heavy-ion /
reaction dynamic /
coupled-channels effect /
positive Q-value neutron transfer effect

Abstract: The effect of neutron transfers on near-and sub-Coulomb-barrier fusion of heavy-ions is still a complicated and controversial problem. This paper reviews the recent experimental results of the fusion excitation functions of several typical systems, which have been measured by using an electrostatic deflector setup at the HI-13 tandem accelerator of CIAE. Both the neutron pickup and stripping effects were studied. Moreover, a self-consistent method to reliably isolate the transfer effect quantitatively based on the coupledchannels calculation is proposed. These studies give a further support for the neutron transfer effect on sub-barrier fusion of heavy-ions and its complexity. Further experimental and theoretical studies are needed for clarifying the relevant reaction mechanisms.

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Reference (125)

[1]	CANTO L F, GOMES P R S, DONANGELO R, et al. Phys Rep, 2015, 596; 1.
[2]	BACK B B, ESBENSEN H, JIANG C L, et al. Rev Mod Phys, 2014, 86:317.
[3]	HAGINO K, TAKIGAWA N. Prog Theor Phys, 2012, 128:1061.
[4]	CANTO L F, GOMES P R S, DONANGELO R, et al. Phys Rep, 2006, 424:1.
[5]	BALANTEKIN A B, TAKIGAWA N. Rev Mod Phys, 1998, 70:77.
[6]	REISDORF W. J Phys G, 1994, 20:1297.
[7]	VAZ LOUIS C, ALEXANDER JOHN M, SATCHLER G R. Phys Rep, 1981, 69:373.
[8]	OGANESSIAN YU TS, et al. Phys Rev C, 2011, 83:054315.
[9]	HOFMANN S, MÜNZENBERG G. Rev Mod Phys, 2000, 72:733.
[10]	ZHANG Z Y, GAN Z G, MA L, et al. Chin Phys Lett, 2012, 29:012502.
[11]	SPILLANE T, RAIOLA F, ROLFS C, et al. Phys Rev Lett, 2007, 98:122501.
[12]	CUMMING A, BILDSTEN L. Astrophys J Lett, 2001, 559:L127.
[13]	GAMOW G. Nature, 1928, 122:805.
[14]	HILL D L, WHEELER J A. Phys Rev, 1953, 89:1102.
[15]	WONG C Y. Phys Rev Lett, 1973, 31:766.
[16]	STOKSTAD R G, EISEN Y, KAPLANIS S, et al. Phys Rev Lett, 1978, 41, 465.
[17]	ROWLEY N, SATCHLER G, STELSON P. Phys Lett B, 1991, 254:25.
[18]	WEI J X, LEIGH J R, HINDE D J, et al. Phys Rev Lett, 1991, 67:3368.
[19]	HAGINO K, ROWLEY N, KRUPPA A T. Comp Phys Commun 1999, 123:143.
[20]	STOKSTAD R G, EISEN Y, KAPLANIS S, et al. Phys Rev C, 1980, 21:2427.
[21]	STEFANINI A M, ACKERMANN D, CORRADI L, et al. Phys Rev Lett, 1995, 74:864.
[22]	BECKERMAN M, SALOMAA M, SPERDUTO A, et al. Phys Rev Lett, 1980, 45:1472.
[23]	SONZOGNI A A, BIERMAN J D, KELLY M P, et al. Phys Rev C, 1998, 57:722.
[24]	BOURGIN D, COURTIN S, HASS F, et al. Phys Rev C, 2014, 90:044610.
[25]	PRASAD N V S V, VINODKUMAR A M, SINHA A K, et al. Nucl Phys A, 1996, 603:176.
[26]	WU Y W, LIU Z H, LIN C J, et al. Phys Rev C, 2003, 68:044605.
[27]	DASGUPTA M, HINDE D J, BUTT R D, et al. Phys Rev Lett, 1999, 82:1395.
[28]	HINDE D J, DASGUPTA M, FULTON B R, et al. Phys Rev Lett, 2002, 89:272701.
[29]	FANG Y D, GOMES P R S, LUBIAN J, et al. Phys Rev C, 2015, 91:014608.
[30]	KIM KA-HAE, OTSUKA TAKAHARU, TOHYAMA MITSURU. Phys Rev C, 1994, 50:R566.
[31]	TAKIGAWA N, SAGAWA H. Phys Lett B, 1991, 265:23.
[32]	HUSSEIN M S, Phys Rev C, 1991, 44:446.
[33]	DIAZ-TORRES A, THOMPSON I J. Phys Rev C, 2002, 65:024606.
[34]	JIANG C L, ESBENSEN H, REHM K E, et al. Phys Rev Lett, 2002, 89:052701.
[35]	LIN C J. Phys Rev Lett, 2003, 91:229201.
[36]	MIŞICU Ş, ESBENSEN H. Phys Rev Lett, 2006, 96:112701.
[37]	BURBIDGE E M, BURBIDGE G R, FOWLER W A, et al. Rev Mod Phys, 1957, 29:547.
[38]	WANG N, LI Z X, WU X Z. Phys Rev C, 2002, 65:064608.
[39]	WEN K, SAKATA F, LI Z X, et al. Phys Rev Lett, 2013, 111:012501.
[40]	SIMENEL C, DASGUPTA M, HINDE D J, et al. Phys Rev C, 2013, 88:064604.
[41]	SARGSYAN V V, ADAMIAN G G, ANTONENKO N V, et al. Phys Rev C, 2015, 91:014613.
[42]	LIU Z H, BAO J D. Phys Rev C, 2013, 87:034616.
[43]	ADAMIAN G G, ANTONENKO N V, SCHEID W, et al. Nucl Phys A, 1998, 633:409.
[44]	SHEN C W, KOSENKO G, ABE Y. Phys Rev C, 2002, 66:061602(R).
[45]	MUKHERJEE A, DASGUPTA M, HINDE D J, et al. Phys Rev C, 2002, 66:034607.
[46]	BROGLIA R A, DASSO C H, LANDOWNE S, et al. Phys Rev C, 1983, 27:R2433.
[47]	BROGLIA R A, DASSO C H, LANDOWNE S, et al. Phys Lett B, 1983, 133:34.
[48]	REHM K E, WOLFS F L H, VAN DEN BERG A M, et al. Phys Rev Lett, 1985, 55:280.
[49]	GOMES P R S, MACIEL A M M, ANJOS R M, et al. J Phys G, 1997, 23:1315.
[50]	HENNING W, WOLFS F L H, SCHIFFER J P, et al. Phys Rev Lett, 1987, 58:318.
[51]	STELSON P H. Phys Lett B, 1988, 205:190.
[52]	DASSO C H, POLLAROLO G. Phys Lett B, 1985, 155:223.
[53]	DASSO C H, VITTURI A. Phys Lett B, 1986, 179:337.
[54]	ESBENSEN H, JIANG C L, REHM K E. Phys Rev C, 1998, 57:2401.
[55]	DIRAC P A M. Math Proc Cambridge Philos Soc, 1930, 26:361.
[56]	NEGELE J W. Rev Mod Phys, 1982, 54:913.
[57]	VO-PHUOC K, SIMENEL C, SIMPSON E C. Phys Rev C, 2016, 94:024612.
[58]	KESER R, UMAR A S, OBERACKER V E, Phys Rev C, 2012, 85:044606.
[59]	GODBEY K, UMAR A S, SIMENEL C. Phys Rev C, 2017, 95:011601(R).
[60]	MAGIERSKI PIOTR, SEKIZAWA KAZAYUKI, WLAZ LOWSKI GABRIEL. Phys Rev Lett, 2017, 119:042501.
[61]	RAABE R, SIDA J L, CHARVET J L, et al. Nature, 2004, 431:823.
[62]	LEMASSON A, SHRIVASTAVA A, NAVIN A, et al. Phys Rev Lett, 2009, 103:232701.
[63]	CARNELLI P F F, ALMARAZ-CALDERON S, REHM K E, et al. Phys Rev Lett, 2014, 112:192701.
[64]	HINDE D, DASGUPTA M. Nature, 2004, 431:784.
[65]	BECKERMAN M. Phys Rep, 1985, 129:145.
[66]	BECKERMAN M. Rep Prog Phys, 1988, 51:1047.
[67]	REISDORF W, HESSBERGER F P, HILDENBRAND K D, et al. Phys Rev Lett, 1982, 49:1811.
[68]	KOHLEY Z, LIANG J F, SHAPIRA D, et al. Phys Rev Lett, 2011, 107:202701.
[69]	GAVRON A. Phys Rev C, 1980, 21:230.
[70]	BEGHINI S, SIGNORINI C, LUNARDI S, et al. Nucl Instr Meth A, 1985, 239:585.
[71]	WEI J X, LEIGH J R, WEISSER D C, et al. Nucl Instr Meth A, 1991, 306:557.
[72]	AGUILERA E F, MARTINEZ-QUIROZ E, AMADORVALENZUELA P, et al. Phys Rev C, 2017, 96:024616.
[73]	ZHANG H Q, LIN C J, YANG F, et al. Chin Phys C, 2010, 34:1628.
[74]	JIA H M, LIN C J, YANG F, et al. Phys Rev C, 2014, 89:064605.
[75]	ZHANG H Q, LIN C J, YANG F, et al. Phys Rev C, 2010, 82:054609.
[76]	JIA H M, LIN C J, YANG L, et al. Phys Lett B, 2016, 755:43.
[77]	TIMMERS H, ACKERMANN D, BEGHINI S, et al. Nucl Phys A, 1998, 633:421.
[78]	MONTAGNOLI G, BEGHINI S, SCARLASSARA F, et al. Euro Phys J A, 2002, 15:351.
[79]	STEFANINI A M, BEHERA B R, BEGHINI S, et al. Phys Rev C, 2007, 76:014610.
[80]	ZAGREBAEV V I. Phys Rev C, 2003, 67:061601(R).
[81]	POLLAROLO G, WINTHER A. Phys Rev C, 2000, 62:054611.
[82]	SARGSYAN V V, ADAMIAN G G, ANTONENKO N V, et al. Phys Rev C, 2011, 84:064614.
[83]	ALJUWAIR H A, LEDOUX R J, BECKERMAN M, et al. Phys Rev C, 1984, 30:1223.
[84]	TROTTA M, STEFANINI A M, CORRADI L, et al. Phys Rev C, 2001, 65:011601(R).
[85]	SCARLASSARA F, BEGHINI S, MONTAGNOLI G, et al. Nucl Phys A, 2000, 672:99.
[86]	KOLATA J J, ROBERTS A, HOWARD A M, et al. Phys Rev C, 201285:054603.
[87]	LIANG J F, ALLMOND J M, GROSS C J, et al. Phys Rev C, 2016, 94:024616.
[88]	STEFANINI A M, MONTAGNOLI G, SCARLASSARA F, et al. Euro Phys J A, 2013, 49:63.
[89]	WU C Y, VON OERTZEN W, CLINE D, et al. Annu Rev Nucl Part Sci, 1990, 40:285.
[90]	BENJELLOUN M, GALSTER W, VERVIER J. Nucl Phys A, 1993, 560:715.
[91]	JACOBS P, FRAENKEL Z, MAMANE G, et al. Phys Lett B, 1986, 175:271.
[92]	STEFANINI A M, FORTUNA G, PENGO R, et al. Phys Lett B, 1985, 162:66.
[93]	STEFANINI A M, FORTUNA G, PENGO R, et al. Nucl Phys A, 1986, 456:509.
[94]	BOND P D, KORNER H J, LEMAIRE M C, et al. Phys Rev C, 1977, 16:177.
[95]	AGUILERA E F, KOLATA J J, TIGHE R J. Phys Rev C, 1995, 52:3103.
[96]	JIA H M, LIN C J, YANG F, et al. Phys Rev C, 2012, 86:044621.
[97]	BORGES A M, DA SILVA C P, PEREIRA D, et al. Phys Rev C, 1992, 46:2360.
[98]	PEREIRA D, SILVA C P, LUBIAN J, et al. Phys Rev C, 2006, 73:014601.
[99]	ROSSI E S JR, CHAMON L C, PEREIRA D, et al. J Phys G, 1997, 23:1473.
[100]	SIMÕES R F, MONTEIRO D S, ONO L K, et al. Phys Lett B, 2002, 527:187.
[101]	STEFANINI A M, FORTUNA G, TIVELLI A, et al. Phys Rev C, 1984, 30:2088.
[102]	CORRADI L, HE J H, ACKERMANN D, et al. Phys Rev C, 1996, 54:201.
[103]	POLLAROLO G, BROGLIA R A, WINTHER A. Nucl Phys A, 1983, 406:369.
[104]	QUESADA J M, POLLAROLO G, BROGLIA R A, et al. Nucl Phys A, 1985, 442:381.
[105]	ASCUITTO R J, SEGLIE E A. Treatise on Heavy-ion Science[M]. BROMLEY D A, ed. New York:Plenum Press, 1984, Vol. 1, Chap. 5.
[106]	CORRADI L, SKORKA S J, LENZ U, et al. Z Phys A, 1990, 334:55.
[107]	REHM K E. Annu Rev Nucl Part Sci, 1991, 41:429.
[108]	LIANG J F, LEE L L JR, MAHON J C, et al. Phys Rev C, 1994, 50:1550.
[109]	CORRADI L, SKORKA S J, WINKELMANN T, et al. Z Phys A, 1993, 346:217.
[110]	JIANG C L, REHM K E, BACK B B, et al. Phys Rev C, 2014, 89:051603(R).
[111]	MAHON J C, LEE L L JR, LIANG J F, et al. J Phys G, 1997, 23:1215.
[112]	TIMMERS H, LEIGH J R, DASGUPTA M, et al. Nucl Phys A, 1995, 584:190.
[113]	ZAGREBAEV V I. Phys Rev C, 2008, 78:047602.
[114]	MITSUOKA S, IKEZOE H, NISHIO K, et al. Phys Rev Lett, 2007, 99:182701.
[115]	NTSHANGASE S S, ROWLEY N, BARK R A, et al. Phys Lett B, 2007, 651:27.
[116]	JIA H M, LIN C J, ZHANG H Q, et al. Phys Rev C, 2010, 82:027602.
[117]	SEKIZAWA K, YABANA K. Phys Rev C, 2013, 88:014614.
[118]	WOLSKI ROMAN. Phys Rev C, 2013, 88:041603(R).
[119]	BECKERMAN M, SALOMAA M, SPERDUTO A, et al. Phys Rev C, 1982, 25:837.
[120]	DIGREGORIO D E, DITADA M, ABRIOLA D, et al. Phys Rev C, 1989, 39:516.
[121]	CANTO L F, GOMES P R S, LUBIAN J, et al. J Phys G, 2009, 36:015109.
[122]	GOMES P R S, LUBIAN J, PADRON I, et al. Phys Rev C, 2005, 71:017601.
[123]	BIRKHAN J, MIORELLI M, BACCA S, et al. Phys Rev Lett, 2017, 118:252501.
[124]	AKYÜZ Ö, WINTHER A. Nuclear Structure and Heavy-ion Reactions//BROGLIA R A, RICCI R A (Eds.), Proceedings of the International School of Physics "Enrico Fermi," Course LXXVⅡ, Varenna, North-Holland, Amsterdam, 1981.
[125]	BIERMAN J D, CHAN P, LIANG J F, et al. Phys Rev Lett, 1996, 76:1587.

Role of Neutron Transfers in Initiating Near-barrier Fusion of Heavy-ions

doi: 10.11804/NuclPhysRev.34.03.361

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通讯作者: 陈斌, bchen63@163.com

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