NRV - Experimental data on elastic scattering

³He + ⁴⁷Ti	→	⁵⁰Cr	(2n, 1n1p)	M.K. Go, S.S. Markowitz,	Physical Review, C7 (1973) 1464-1470
³He + ¹⁶⁷Er	→	¹⁷⁰Yb	(4n, 3n, 2n)	S. Gil, R. Vandenbosch, A. Charlop et al.,	Physical Review, C 43 (1991) 701
⁴He + ²⁷Al	→	³¹P	(3p, 3n4p, 5n4p)	A. Kirov, N. Nenoff, D. Kolev,	Zeitschrift fur Physik, 341 (1992) 443-452
⁴He + ⁴⁶Ti	→	⁵⁰Cr	(1n1p, 2n)	M.K. Go, S.S. Markowitz,	Physical Review, C7 (1973) 1464-1470
⁴He + ⁵⁸Ni	→	⁶²Zn	(0n)	S.J. Quinn, A. Spyrou, E. Bravo et al.,	Physical Review, C 89 (2014) 54611
⁴He + ⁵⁸Ni	→	⁶²Zn	(0n)	A. Simon, M. Beard, A. Spyrou et al.,	Physical Review, C 92 (2015) 25806
⁴He + ⁶⁰Ni	→	⁶⁴Zn	(0n)	A. Simon, M. Beard, A. Spyrou et al.,	Physical Review, C 92 (2015) 25806
⁴He + ⁶¹Ni	→	⁶⁵Zn	(0n)	A. Simon, M. Beard, A. Spyrou et al.,	Physical Review, C 92 (2015) 25806
⁴He + ⁶²Ni	→	⁶⁶Zn	(0n)	A. Simon, M. Beard, A. Spyrou et al.,	Physical Review, C 92 (2015) 25806
⁴He + ⁶⁴Ni	→	⁶⁸Zn	(0n)	A. Simon, M. Beard, A. Spyrou et al.,	Physical Review, C 92 (2015) 25806
⁴He + ⁶³Cu	→	⁶⁷Ga	(1α, 1p, 1n, 1α1n, 1n1p, 2n)	A. Navin, V. Tripathi, Y. Blumenfeld, V. Nanal et al.,	Physical Review, 70 (2004) 044601
⁴He + ⁶⁵Cu	→	⁶⁹Ga	(1n, 1α1n, 1n1p, 2n, 2n1p, 1α, 3n, 1p)	A. Navin, V. Tripathi, Y. Blumenfeld, V. Nanal et al.,	Physical Review, 70 (2004) 044601
⁴He + ⁷⁴Ge	→	⁷⁸Se	(0n)	S.J. Quinn, A. Spyrou, A. Simon et al.,	Physical Review, C 92 (2015) 45805
⁴He + ⁹⁰Zr	→	⁹⁴Mo	(0n)	S.J. Quinn, A. Spyrou, A. Simon et al.,	Physical Review, C 92 (2015) 45805
⁴He + ⁹²Zr	→	⁹⁶Mo	(0n)	S.J. Quinn, A. Spyrou, A. Simon et al.,	Physical Review, C 92 (2015) 45805
⁴He + ⁹³Nb	→	⁹⁷Tc	(1n, 2n)	C. S. Palshetkar, S. Santra, A Chatterjee, K. Ramachandran, Shital Tha,	Physical Review, C82 (2010) 044608
⁴He + ¹¹²Sn	→	¹¹⁶Te	(0n)	L. Netterdon, J. Mayer, P. Scholz et al.,	Physical Review, C 91 (2015) 35801
⁴He + ¹³⁰Te	→	¹³⁴Xe	(1n, 1α1n, 1n1p, 1p)	A. Kirov, N. Nenoff, D. Kolev,	Zeitschrift fur Physik, 341 (1992) 443-452
⁴He + ¹²⁷I	→	¹³¹Cs	(0n, 1n)	G.G. Kiss, T. Szucs, Zs. Torok et al.,	Physical Review, C 86 (2012) 35801
⁴He + ¹⁶²Dy	→	¹⁶⁶Er	(1n, 2n, 3n)	R. Broda, M. Ishihara, B. Herskind, H. Oeschler, S. Ogaza, H. Ryde,	Nuclear Physics, A248 (1975) 356
⁴He + ¹⁶⁵Ho	→	¹⁶⁹Tm	(1n)	J. Glorius, K. Sonnabend, J. Gorres et al.,	Physical Review, C 89 (2014) 65808
⁴He + ¹⁶²Er	→	¹⁶⁶Yb	(1n, 0n)	G.G. Kiss, T. Szucs, T. Rauscher et al.,	Physics Letters, B 735 (2014) 40
⁴He + ¹⁶⁶Er	→	¹⁷⁰Yb	(4n, 3n, 2n)	S. Gil, R. Vandenbosch, A. Charlop et al.,	Physical Review, C 43 (1991) 701
⁴He + ¹⁶⁶Er	→	¹⁷⁰Yb	(1n)	J. Glorius, K. Sonnabend, J. Gorres et al.,	Physical Review, C 89 (2014) 65808
⁴He + ¹⁶⁹Tm	→	¹⁷³Lu	(1n, 0n)	T. Rauscher, G.G. Kiss, T. Szucs et al.,	Physical Review, C 86 (2012) 15804
⁴He + ¹⁶⁸Yb	→	¹⁷²Hf	(1n, 0n)	L. Netterdon, P. Demetriou, J. Endres et al.,	Nuclear Physics, A 916 (2013) 149
⁴He + ¹⁸⁷Re	→	¹⁹¹Ir	(1n)	P. Scholz, A. Endres, A. Hennig et al.,	Physical Review, C 90 (2014) 65807
⁴He + ¹⁹⁷Au	→	²⁰¹Tl	(8n, 3n, 3n1p, 4n, 5n, 6n, 1n, 7n, 2n)	H.E. Kurz, E.W. Jasper, K. Fischer, F. Hermes,	Nuclear Physics, A168 (1971) 129-138
⁴He + ¹⁹⁷Au	→	²⁰¹Tl	(6n, 7n, 8n, 10n, 9n, 11n, 4n, 5n)	A. Djaloeis, P. Jahn, H.-J. Probst, C. Mayer-Böricke,	Nuclear Physics, A250 (1975) 149-162
⁴He + ¹⁹⁷Au	→	²⁰¹Tl	(1n, 2n, 3n)	A.A. Kulko, N.A. Demekhina, R. Kalpakchieva et al.,	Physics of Atomic Nuclei, 70 (2007) 613
⁴He + ¹⁹⁷Au	→	²⁰¹Tl	(2n, 1n, 0n)	M.S. Basunia, H.A. Shugart, A.R. Smith et al.,	Physical Review, C 75 (2007) 15802
⁴He + ²⁰⁸Pb	→	²¹²Po	(1n)	A.R. Barnett and J.S. Lilley,	Physical Review, C9 (1974) 2010
⁴He + ²⁰⁸Pb	→	²¹²Po	(2n)	S.M. Lukyanov, Yu.E. Penionzhkevich, R.A. Astabatian et al.,	Physics Letters, B 670 (2009) 321
⁴He + ²⁰⁹Bi	→	²¹³At	(1n)	A.R. Barnett and J.S. Lilley,	Physical Review, C9 (1974) 2010
⁴He + ²⁰⁹Bi	→	²¹³At	(4n, 2n, 3n)	W.J. Ramler, J. Wing, D.J. Henderson et al.,	Physical Review, 114 (1959) 154
⁴He + ²³³U	→	²³⁷Pu	(3n, 2n, 1n)	H. Delagrange, A. Fleury, J.M. Alexander,	Physical Review, C17 (1978) 1706-1720
⁴He + ²³³U	→	²³⁷Pu	(2n1p, 1n1p, 3n, 3n1p, 4n, 1p, 5n, 1n, 2n)	R.Vandenbosch, T.D.Thomas, S.E.Vandenbosch, R.A.Glass, G.T.Seaborg,	Physical Review, 111 (1958) 1358-1373
⁴He + ²³⁴U	→	²³⁸Pu	(4n, 3n, 2n, 1n)	H. Delagrange, A. Fleury, J.M. Alexander,	Physical Review, C17 (1978) 1706-1720
⁴He + ²³⁵U	→	²³⁹Pu	(3n, 2n, 4n)	H. Delagrange, A. Fleury, J.M. Alexander,	Physical Review, C17 (1978) 1706-1720
⁴He + ²³⁵U	→	²³⁹Pu	(2n, 3n, 4n, 5n, 2n1p, 1p, 1n)	R.Vandenbosch, T.D.Thomas, S.E.Vandenbosch, R.A.Glass, G.T.Seaborg,	Physical Review, 111 (1958) 1358-1373
⁴He + ²³⁸U	→	²⁴²Pu	(1n, 1n1p, 2n1p, 3n1p)	R.Vandenbosch, T.D.Thomas, S.E.Vandenbosch, R.A.Glass, G.T.Seaborg,	Physical Review, 111 (1958) 1358-1373
⁴He + ²³⁷Np	→	²⁴¹Am	(1n, 2n, 3n, 4n)	A. Fleury, F. H. Ruddy, M.N. Nambodiri, John M. Alexander,	Physical Review, C7 (1973) 3
⁶He + ⁶³Cu	→	⁶⁹Ga	(1α3n, 3n1p, 2n1p, 1α2n, 2n, 3n)	A. Navin, V. Tripathi, Y. Blumenfeld, V. Nanal et al.,	Physical Review, 70 (2004) 044601
⁶He + ⁶⁵Cu	→	⁷¹Ga	(4n, 2n, 1α2n, 2n1p, 3n, 1α3n, 3n1p)	A. Navin, V. Tripathi, Y. Blumenfeld, V. Nanal et al.,	Physical Review, 70 (2004) 044601
⁶He + ⁶⁴Zn	→	⁷⁰Ge	(1α1n, 1α1n1p, 2n, 1n1p, 2n1p)	V. Scuderi, A. Di Pietro, P. Figuera et al.,	Physical Review, C 84 (2011) 64604
⁶He + ¹⁹⁷Au	→	²⁰³Tl	(3n, 4n, 5n, 6n, 7n, 2n)	Yu.E. Penionzhkevich, R.A. Astabatyan, N.A. Demekhina, G.G. Gulbekian,,	European Physical Journal, A31 (2007) 185-194
⁶He + ²⁰⁶Pb	→	²¹²Po	(2n)	Yu.E. Penionzhkevich, V.I. Zagrebaev, S.M. Lukyanov et al.,	Physical Review Letters, 96 (2006) 162701
⁶He + ²⁰⁶Pb	→	²¹²Po	(2n)	R. Wolski, I. Martel, L. Standylo et al.,	European Physical Journal, A 47 (2011) 111
⁶He + ²⁰⁶Pb	→	²¹²Po	(2n)	Yu.E. Penionzhkevich, R.A. Astabatyan, N.A. Demekhina et al.,	European Physical Journal, A 31 (2007) 185
⁶He + ²⁰⁶Pb	→	²¹²Po	(2n)	S.M. Lukyanov, Yu.E. Penionzhkevich, R.A. Astabatian et al.,	Physics Letters, B 670 (2009) 321
⁶He + ²⁰⁹Bi	→	²¹⁵At	(3n)	J. J. Kolata, V. Guimarães, D. Peterson et al.,	Physical Review Letters, 81 (1998) 21
⁶He + ²⁰⁹Bi	→	²¹⁵At	(4n)	Yu. E. Penionzhkevich,	Nuclear Physics, A 588 (1995) 259
⁸He + ⁶⁵Cu	→	⁷³Ga	(3n, 1α3n, 1α4n, 4n1p, 4n, 5n)	A. Lemasson, A. Navin, N. Keeley et al.,	Physical Review, C 82 (2010) 44617
⁸He + ¹⁹⁷Au	→	²⁰⁵Tl	(4n, 3n, 6n, 5n)	A. Lemasson, A. Shrivastava, A. Navin,	Physical Review Letters, 103 (2009) 232701
⁶Li + ⁵⁹Co	→	⁶⁵Zn	(2n1p, 1p1n+2n, 1p+1a1p, 3n+2p+2p1n, 1α1n)	C.Beck, F.A.Souza, N.Rowley, et al.,	Physical Review, C67 (2003) 054602
⁶Li + ⁶⁴Ni	→	⁷⁰Ga	(3n, 2n, 2n1p, 1n1p)	Md. Moin Shaikh, Subinit Roy, S. Rajbanshi et al.,	Physical Review, C 90 (2014) 24615
⁶Li + ⁹⁰Zr	→	⁹⁶Tc	(2n (g+m), 2n (g), 2n (m), 3n (g+m), 3n (g), 3n (m))	H. Kumawat, V. Jha, V. V. Parkar et al.,	Physical Review, C 86 (2012) 24607
⁶Li + ¹⁴⁴Sm	→	¹⁵⁰Tb	(2n, 3n)	P. K. Rath, S. Santra, N. L. Singh, R. Tripathi, V. V. Parkar, B. K. N,	Physical Review, C79 (2009) 051601(R)
⁶Li + ¹⁵²Sm	→	¹⁵⁸Tb	(5n, 2n, 3n, 4n)	P.K. Rath, S. Santra, N.L. Singh et al.,	Nuclear Physics, A 874 (2012) 14
⁶Li + ¹⁵⁴Sm	→	¹⁶⁰Tb	(3n+4n)	C.L. Guo, G.L. Zhang, S.P. Hu et al.,	Physical Review, C 92 (2015) 14615
⁶Li + ¹⁵⁹Tb	→	¹⁶⁵Er	(4n, 5n, 2n, 3n)	M.K. Pradhan, A. Mukherjee, P. Basu et al.,	Physical Review, C 83 (2011) 64606
⁶Li + ¹⁹⁴Pt	→	²⁰⁰Tl	(4n)	Yu.E. Penionzhkevich, S.M. Lukyanov, R.A. Astabatyan et al.,	Journal of Physics, G 36 (2009) 25104
⁶Li + ¹⁹⁵Pt	→	²⁰¹Tl	(3n, 4n)	Yu.E. Penionzhkevich, S.M. Lukyanov, R.A. Astabatyan et al.,	Journal of Physics, G 36 (2009) 25104
⁶Li + ¹⁹⁶Pt	→	²⁰²Tl	(3n)	Yu.E. Penionzhkevich, S.M. Lukyanov, R.A. Astabatyan et al.,	Journal of Physics, G 36 (2009) 25104
⁶Li + ¹⁹⁸Pt	→	²⁰⁴Tl	(4n)	Yu.E. Penionzhkevich, S.M. Lukyanov, R.A. Astabatyan et al.,	Journal of Physics, G 36 (2009) 25104
⁶Li + ²⁰⁹Bi	→	²¹⁵Rn	(3n, 2n)	H. Freiesleben, H.C. Britt, J. Birkelund, J.R. Huizenga,	Physical Review, C10 (1974) 245-249
⁶Li + ²⁰⁹Bi	→	²¹⁵Rn	(5n, 4n, 3n, 2n)	M. Dasgupta, P. R. S. Gomes, D. J. Hinde et al.,	Physical Review, C70 (2004) 024606
⁶Li + ²⁰⁹Bi	→	²¹⁵Rn	(4n, 3n, 2n, 1n)	M. Dasgupta, D.J. Hinde, K. Hagino et al.,	Physical Review, C 66 (2002)
⁶Li + ²⁰⁹Bi	→	²¹⁵Rn	(5n, 4n, 3n)	Yu.E. Penionzhkevich, S.M. Lukyanov, R.A. Astabatyan et al.,	Journal of Physics, G 36 (2009) 25104
⁷Li + ⁵⁹Co	→	⁶⁶Zn	(1α2n, 1α1n, 1p3n+2p1n+1a+1a3n, 2n, 1p1n+1a1p1n, 1p2n+3n)	C.Beck, F.A.Souza, N.Rowley, et al.,	Physical Review, C67 (2003) 054602
⁷Li + ¹⁴⁴Sm	→	¹⁵¹Tb	(4n, 3n, 2n, 2n+3n+4n)	P.K. Rath, S. Santra, N.L. Singh et al.,	Physical Review, C 88 (2013) 44617
⁷Li + ¹⁵²Sm	→	¹⁵⁹Tb	(4n, 3n, 3n+4n+5n, 5n)	P.K. Rath, S. Santra, N.L. Singh et al.,	Physical Review, C 88 (2013) 44617
⁷Li + ¹⁵⁹Tb	→	¹⁶⁶Er	(1α2n, 3n, 1α3n, tn, 4n, t2n, 1α1n, 2n)	R. Broda, M. Ishihara, B. Herskind, H. Oeschler, S. Ogaza, H. Ryde,	Nuclear Physics, A248 (1975) 356
⁷Li + ²⁰⁸Pb	→	²¹⁵At	(5n, 8n, 7n, 6n)	Moumita Maiti, Susanta Lahiri,	Physical Review, C 84 (2011) 67601
⁷Li + ²⁰⁹Bi	→	²¹⁶Rn	(4n, 2n, 3n)	H. Freiesleben, H.C. Britt, J. Birkelund, J.R. Huizenga,	Physical Review, C10 (1974) 245-249
⁷Li + ²⁰⁹Bi	→	²¹⁶Rn	(2n, 6n, 5n, 4n, 3n)	M. Dasgupta, P. R. S. Gomes, D. J. Hinde et al.,	Physical Review, C70 (2004) 024606
⁷Li + ²⁰⁹Bi	→	²¹⁶Rn	(1n, 2n, 3n, 4n, 5n)	M. Dasgupta, D.J. Hinde, K. Hagino et al.,	Physical Review, C 66 (2002)
⁷Li + ²⁰⁹Bi	→	²¹⁶Rn	(4n, 3n)	A. M. Vinodkumar, W. Loveland, P. H. Sprunger et al.,	Physical Review, C 80 (2009) 54609
⁸Li + ²⁰⁸Pb	→	²¹⁶At	(4n, other, 5n)	E. F. Aguilera, E. Martinez-Quiroz, P. Rosales et al.,	Physical Review, C80 (2009) 044605
⁹Li + ²⁰⁸Pb	→	²¹⁷At	(6n, 3n, 4n, 5n)	A. M. Vinodkumar, W. Loveland, P. H. Sprunger et al.,	Physical Review, C 80 (2009) 54609
¹¹Li + ²⁰⁸Pb	→	²¹⁹At	(4n+7n, 6n, 5n)	A.M. Vinodkumar, W. Loveland, R. Yanez et al.,	Physical Review, C 87 (2013) 44603
⁹Be + ⁸⁹Y	→	⁹⁸Tc	(1a2n+2p4n, 2n, 3n, 4n)	C. S. Palshetkar, S. Santra, A Chatterjee, K. Ramachandran, Shital Tha,	Physical Review, C82 (2010) 044608
⁹Be + ¹²⁴Sn	→	¹³³Xe	(5n, 4n, 3n)	V. V. Parkar, R. Palit, Sushil K. Sharma et al.,	Physical Review, C 82 (2010) 54601
⁹Be + ¹⁴⁴Sm	→	¹⁵³Dy	(1n, 4n, 2n1p, 3n, 1n1p, 2n)	P. R. S. Gomes, I. Padron, E. Crema et al.,	Physical Review, C 73 (2006) 64606
⁹Be + ¹⁶⁹Tm	→	¹⁷⁸Ta	(5n, 4n, 3n, 1α3n, 1α2n, 3n+4n+5n)	Y.D. Fang, P.R.S. Gomes, J. Lubian et al.,	Physical Review, C 91 (2015) 14608
⁹Be + ¹⁸¹Ta	→	¹⁹⁰Ir	(5n, 4n, 3n)	N.T. Zhang, Y.D. Fang, P.R.S. Gomes et al.,	Physical Review, C 90 (2014) 24621
⁹Be + ¹⁸⁶W	→	¹⁹⁵Pt	(5n, 4n, 3n)	Y.D. Fang, P.R.S. Gomes, J. Lubian et al.,	Physical Review, C 87 (2013) 24604
⁹Be + ¹⁸⁷Re	→	¹⁹⁶Au	(3n+4n+5n, 5n, 4n, 3n, 1α3n, 1α2n)	Y.D. Fang, P.R.S. Gomes, J. Lubian et al.,	Physical Review, C 91 (2015) 14608
⁹Be + ²⁰⁵Tl	→	²¹⁴At	(6n, 5n, 4n)	Moumita Maiti, Susanta Lahiri,	Physical Review, C 84 (2011) 67601
⁹Be + ²⁰⁸Pb	→	²¹⁷Rn	(3n, 2n, 5n, 4n)	M. Dasgupta, P. R. S. Gomes, D. J. Hinde et al.,	Physical Review, C70 (2004) 024606
⁹Be + ²⁰⁸Pb	→	²¹⁷Rn	(6n, 5n, 4n, 3n)	M. Dasgupta, D. J. Hinde, S. L. Sheehy, B. Bouriquet,	Physical Review, C81 (2010) 024608
⁹Be + ²⁰⁹Bi	→	²¹⁸Fr	(2n+p3n, 3n, 4n)	C. Signorini, Z.H. Liu, A. Yoshida, T. Fukuda, Z.C. Li et al.,	European Physical Journal, A2 (1998) 227-231
⁹Be + ²⁰⁹Bi	→	²¹⁸Fr	(6n, 5n, 2n, 3n, 4n)	M. Dasgupta, D. J. Hinde, S. L. Sheehy, B. Bouriquet,	Physical Review, C81 (2010) 024608
¹⁰Be + ²⁰⁹Bi	→	²¹⁹Fr	(4n, 3n)	C. Signorini, A. Yoshida, Y. Watanabe, D. Pierroutsakou et al.,	Nuclear Physics, A735 (2004) 329-344
¹⁰Be + ²⁰⁹Bi	→	²¹⁹Fr	(4n, 3n)	A. Yoshida, C. Signorini, T. Fukuda, Y. Watanabe et al.,	Physics Letters, B389 (1996) 457
¹¹Be + ²⁰⁹Bi	→	²²⁰Fr	(4n, 5n)	C. Signorini, A. Yoshida, Y. Watanabe, D. Pierroutsakou et al.,	Nuclear Physics, A735 (2004) 329-344
¹¹Be + ²⁰⁹Bi	→	²²⁰Fr	(4n, 5n)	A. Yoshida, C. Signorini, T. Fukuda, Y. Watanabe et al.,	Physics Letters, B389 (1996) 457
⁸B + ²⁸Si	→	³⁶K	(1α)	E.F. Aguilera, P. Amador-Valenzuela, E. Martinez-Quiroz et al.,	Physical Review, C 93 (2016) 34613
⁸B + ⁵⁸Ni	→	⁶⁶As	(1α, 1p)	E.F. Aguilera, P. Amador-Valenzuela, E. Martinez-Quiroz et al.,	Physical Review, C 93 (2016) 34613
¹⁰B + ¹⁴²Nd	→	¹⁵²Tb	(3n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹⁰B + ¹⁴⁴Nd	→	¹⁵⁴Tb	(5n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹⁰B + ¹⁴⁶Nd	→	¹⁵⁶Tb	(7n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹⁰B + ²⁰⁹Bi	→	²¹⁹Ra	(3n, 6n2p, 5n2p, 4n2p, 6n, 5n, 4n)	L.R. Gasques, D.J. Hinde, M. Dasgupta et al.,	Physical Review, C 79 (2009)
¹¹B + ¹⁴²Nd	→	¹⁵³Tb	(4n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹¹B + ¹⁴⁴Nd	→	¹⁵⁵Tb	(6n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹¹B + ¹⁴⁶Nd	→	¹⁵⁷Tb	(8n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹¹B + ²⁰⁹Bi	→	²²⁰Ra	(3n, 6n2p, 5n2p, 6n, 5n, 4n)	L.R. Gasques, D.J. Hinde, M. Dasgupta et al.,	Physical Review, C 79 (2009)
¹²C + ¹²C	→	²⁴Mg	(1α, 1p, 1n)	L. Barron-Palos, E.F. Aguilera, J. Aspiazu et al.,	Nuclear Physics, A 779 (2006) 318
¹²C + ²⁰Ne	→	³²S	(1α1p, d, 1p+2p, 2α, 1α)	G. Hulke, C. Rolfs, H.P. Trautvetter,	Zeitschrift fur Physik, 297 (1980) 161-183
¹²C + ²⁷Al	→	³⁹K	(3α1n2p, 2α3p, 1α1n)	Manoj Kumar Sharma, Abhishek Yadav, Vijay Raj Sharma et al.,	Physical Review, C 91 (2015) 24608
¹²C + ⁵²Cr	→	⁶⁴Zn	(1α3n1p, 2n, 1α2n1p, 1α1n1p, 1α3n, 1α4n, 2n1p, 3n1p)	F. K. Amanuel, B. Zelalem, A. K. Chaubey et al.,	Physical Review, C 84 (2011) 24614
¹²C + ⁸⁹Y	→	¹⁰¹Rh	(4n, 3n, 2n, 1α2n, 1α1n)	C. S. Palshetkar, S. Santra, A Chatterjee, K. Ramachandran, Shital Tha,	Physical Review, C82 (2010) 044608
¹²C + ⁹³Nb	→	¹⁰⁵Ag	(5n1p, 2α3n, 2n, 1α1n, 3n, 1α2n, 4n, 1α3n, 3a1n (m), 3n1p, 2α1n, 4n1p, 2α2n)	B.S. Tomar, A. Goswami, A.V.R. Reddy et al.,	Zeitschrift fur Physik, A 343 (1992) 223
¹²C + ⁹³Nb	→	¹⁰⁵Ag	(3n1p, 4n1p, 5n1p, 2n, 3n, 4n, 2n2p)	Tauseef Ahmad, I.A. Rizvi, Avinash Agarwal et al.,	International Journal of Modern Physics, E 20 (2011) 645
¹²C + ¹⁰⁶Cd	→	¹¹⁸Xe	(3p, 1n1p, 2α, 2n, 2p, 1α2n, 1α2p)	A. Gizon, et al.,	Zeitschrift fur Physik, A302 (1981) 79
¹²C + ¹²⁸Te	→	¹⁴⁰Ce	(3n)	Manoj Kumar Sharma, Pushendra P. Singh, Devendra P. Singh et al.,	Physical Review, C 91 (2015) 14603
¹²C + ¹⁴¹Pr	→	¹⁵³Tb	(4n, 3n1p, 2n, 3n)	Moumita Maiti,	Physical Review, C 84 (2011) 44615
¹²C + ¹⁴¹Pr	→	¹⁵³Tb	(4n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹²C + ¹⁴¹Pr	→	¹⁵³Tb	(7n1p, 3n2p, 4n3p, 6n, 7n4p, 6n1p, 8n2p, 5n, 6n4p, 5n1p, 7n2p, 4n, 5n4p, 4n1p, 6n2p, 7n3p, 3n1p, 5n2p, 6n3p, 2n1p, 7n5p, 4n2p, 5n3p, 7n, 6n5p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹²C + ¹⁴⁴Sm	→	¹⁵⁶Er	(4n, 5n3p, 4n1p, 5n4p, 3n2p, 3n, 4n3p, 3n1p, 4n4p, 2n2p, 2n, 3n3p, 2n1p, 3n4p, 1n2p, 7n2p, 1n1p, 2n4p, 2p, 6n2p, 6n, 7n3p, 6n1p, 7n4p, 5n2p, 5n, 6n3p, 5n1p, 6n4p, 4n2p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹²C + ¹⁴⁷Sm	→	¹⁵⁹Er	(6n, 7n3p, 5n1p, 8n4p, 5n2p, 5n, 6n3p, 4n1p, 7n4p, 4n2p, 4n, 5n3p, 3n1p, 6n4p, 3n2p, 3n, 4n3p, 2n1p, 5n4p, 2n2p, 2n, 8n2p, 1n1p, 4n4p, 7n1p, 7n2p, 7n, 8n3p, 6n1p, 6n2p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹²C + ¹⁵⁰Sm	→	¹⁶²Er	(9n, 6n4p, 7n1p, 8n2p, 8n, 5n4p, 6n1p, 7n2p, 7n, 4n4p, 5n1p, 6n2p, 6n, 7n3p, 4n1p, 9n4p, 5n2p, 5n, 6n3p, 3n1p, 8n4p, 4n2p, 4n, 4n3p, 2n1p, 7n4p, 3n2p, 3n, 9n2p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹²C + ¹⁵²Sm	→	¹⁶⁴Er	(3n, 1α3n, 4n, 2n, 1α2n)	R. Broda, M. Ishihara, B. Herskind, H. Oeschler, S. Ogaza, H. Ryde,	Nuclear Physics, A248 (1975) 356
¹²C + ¹⁵²Sm	→	¹⁶⁴Er	(6n2p, 6n, 6n3p, 5n1p, 7n4p, 5n2p, 5n, 5n3p, 4n1p, 6n4p, 4n2p, 4n, 4n3p, 3n1p, 4n4p, 3n2p, 3n, 9n2p, 9n, 9n3p, 8n1p, 2n, 8n2p, 8n, 8n3p, 7n1p, 9n4p, 7n2p, 7n, 7n3p, 6n1p, 8n4p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹²C + ¹⁵⁴Sm	→	¹⁶⁶Er	(5n3p, 6n, 4n2p, 10n2p, 5n, 9n4p, 5n1p, 9n2p, 4n, 8n4p, 4n1p, 8n2p, 3n, 7n4p, 3n1p, 7n2p, 2n, 6n4p, 2n1p, 6n2p, 7n3p, 7n, 5n2p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹²C + ¹⁵⁹Tb	→	¹⁷¹Lu	(5n, 2a3n (m), 4n, 2a3n (g), 3n (g+m), 2α2n, 1α4n, 1α2n, 3n1p)	Abhishek Yadav, Vijay R. Sharma, Pushpendra P. Singh et al.,	Physical Review, C 85 (2012) 34614
¹²C + ¹⁶⁹Tm	→	¹⁸¹Re	(5n, 2α2n, 1α2n, 1α3n, 1α4n, 3n, 4n, 2α1n)	S. Chakrabarty, B.S. Tomar, A. Goswami et al.,	Nuclear Physics, A 678 (2000) 355
¹²C + ¹⁶⁹Tm	→	¹⁸¹Re	(3n)	Manoj Kumar Sharma, Pushendra P. Singh, Devendra P. Singh et al.,	Physical Review, C 91 (2015) 14603
¹²C + ¹⁹⁴Pt	→	²⁰⁶Po	(3n, 4n, 5n)	A. Shrivastava, S. Kailas, A. Chatterjee, A. M. Samant, A. Navin, P. S,	Physical Review Letters, 82 (1999) 4
¹²C + ¹⁹⁸Pt	→	²¹⁰Po	(6n, 5n, 4n, 3n)	A. Shrivastava, S. Kailas, A. Chatterjee, A. M. Samant, A. Navin, P. S,	Physical Review Letters, 82 (1999) 4
¹²C + ¹⁹⁷Au	→	²⁰⁹At	(3n, 4n, 6n, 5n)	S. Baba et al.,	Zeitschrift fur Physik, A331 (1988) 53
¹²C + ²⁰³Tl	→	²¹⁵Fr	(4n)	Y. Le Beyec, M. Lefort, M. Sarda,	Nuclear Physics, A192 (1972) 405
¹²C + ²⁰⁵Tl	→	²¹⁷Fr	(3n, 4n, 5n)	Y. Le Beyec, M. Lefort, M. Sarda,	Nuclear Physics, A192 (1972) 405
¹²C + ²⁰⁸Pb	→	²²⁰Ra	(2n, 4n2p, 1α1n, 3n2p, 1α5n, 6n, 1α4n, 5n, 1α3n, 4n, 6n2p, 3n, 5n2p)	Kushal Kalita,	Journal of Physics, G 38 (2011) 95104
¹²C + ²⁰⁸Pb	→	²²⁰Ra	(4n, 3n, 5n)	T. Nomura, K. Hiruta, T. Inamura and M. Odera,	Nuclear Physics, A 217 (1973) 253
¹²C + ²⁰⁹Bi	→	²²¹Ac	(1α3n, 1α4n, 1α5n, 6n)	Y. Le Beyec, M. Lefort, M. Sarda,	Nuclear Physics, A192 (1972) 405
¹²C + ²⁴⁴Cm	→	²⁵⁶No	(4n (sf emitter), 5n, 4n (alpha emitter))	Torbjorn Sikkeland, Albert Ghiorso and Matti J. Nurmia,	Physical Review, 172 (1968) 1232
¹²C + ²⁴⁶Cm	→	²⁵⁸No	(5n, 4n)	Torbjorn Sikkeland, Albert Ghiorso and Matti J. Nurmia,	Physical Review, 172 (1968) 1232
¹²C + ²⁴⁸Cm	→	²⁶⁰No	(4n, 3n, 5n)	Torbjorn Sikkeland, Albert Ghiorso and Matti J. Nurmia,	Physical Review, 172 (1968) 1232
¹³C + ¹⁵⁹Tb	→	¹⁷²Lu	(3n+4n+5n+1p4n, 1a2n+1a3n+1a5n+2a2n+2a3n+2a4n)	Abhishek Yadav, Vijay R. Sharma, Pushpendra P. Singh et al.,	Physical Review, C 86 (2012) 14603
¹³C + ¹⁶⁹Tm	→	¹⁸²Re	(3n, 1α3n, 4n, 1α4n, 5n, 1α5n, 6n, 2α2n, 2α3n, 4n1p)	Vijay R. Sharma, Abhishek Yadav, Pushpendra P. Singh et al.,	Physical Review, C 89 (2014) 24608
¹³C + ²⁰⁷Pb	→	²²⁰Ra	(3n, 5n2p, 4n2p, 3n2p, 6n, 1α4n, 5n, 1α3n, 4n, 6n2p)	Kushal Kalita,	Journal of Physics, G 38 (2011) 95104
¹³C + ²⁴⁴Cm	→	²⁵⁷No	(5n (alpha emitter), 5n (sf emitter), 4n, 3n)	Torbjorn Sikkeland, Albert Ghiorso and Matti J. Nurmia,	Physical Review, 172 (1968) 1232
¹³C + ²⁴⁶Cm	→	²⁵⁹No	(5n, 4n, 3n)	Torbjorn Sikkeland, Albert Ghiorso and Matti J. Nurmia,	Physical Review, 172 (1968) 1232
¹³C + ²⁴⁸Cm	→	²⁶¹No	(5n, 4n)	Torbjorn Sikkeland, Albert Ghiorso and Matti J. Nurmia,	Physical Review, 172 (1968) 1232
¹⁴N + ⁵⁹Co	→	⁷³Se	(1n1p, 1α1n1p, 2pn+a2pn, 1α2n, 1α1p, 2n1p, 3n1p, 1α2p, 1α2n1p, 1α1n, 2n2p, 2α1n)	P.R.S. Gomes, T.J.P. Penna, R. L. Neto, J.C. Acquadro, C. Tenreiro, P.,	Nuclear Instruments and Methods, A280 (1989) 395-401
¹⁴N + ¹⁴⁰Ce	→	¹⁵⁴Tb	(5n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹⁴N + ¹⁴¹Pr	→	¹⁵⁵Dy	(4n2p, 4n, 9n5p, 4n3p, 2n1p, 10n6p, 6n4p, 3n2p, 3n, 8n5p, 9n2p, 1n1p, 9n6p, 5n4p, 7n1p, 2n, 7n5p, 8n2p, 8n, 8n6p, 8n3p, 6n1p, 6n5p, 7n2p, 7n, 7n6p, 7n3p, 5n1p, 9n4p, 6n2p, 6n, 6n6p, 6n3p, 4n1p, 8n4p, 5n2p, 5n, 10n5p, 5n3p, 3n1p, 7n4p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹⁴N + ¹⁴⁴Sm	→	¹⁵⁸Tm	(7n4p, 4n2p, 2n, 7n6p, 4n3p, 2n1p, 6n4p, 3n2p, 6n6p, 3n3p, 1n1p, 5n4p, 2n2p, 8n5p, 2n3p, 6n, 4n4p, 6n1p, 7n5p, 7n2p, 5n, 8n7p, 7n3p, 5n1p, 6n5p, 6n2p, 4n, 9n6p, 6n3p, 4n1p, 5n5p, 5n2p, 3n, 8n6p, 5n3p, 3n1p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹⁴N + ¹⁴⁷Sm	→	¹⁶¹Tm	(7n3p, 5n1p, 8n5p, 6n2p, 10n6p, 5n, 6n3p, 4n1p, 7n5p, 5n2p, 9n6p, 4n, 5n3p, 3n1p, 6n5p, 4n2p, 8n6p, 3n, 4n3p, 2n1p, 8n4p, 2n2p, 7n6p, 3n3p, 8n, 6n4p, 7n4p, 7n1p, 6n6p, 8n2p, 7n, 9n7p, 5n4p, 6n1p, 9n5p, 7n2p, 8n7p, 6n)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹⁴N + ¹⁵⁰Sm	→	¹⁶⁴Tm	(8n2p, 7n, 8n4p, 6n1p, 6n6p, 7n2p, 6n, 8n3p, 5n1p, 8n5p, 6n2p, 5n, 7n3p, 4n1p, 7n5p, 5n2p, 4n, 8n7p, 6n3p, 3n1p, 6n5p, 4n2p, 3n, 9n6p, 5n3p, 9n, 5n5p, 8n1p, 8n6p, 9n2p, 8n, 9n4p, 7n1p, 7n6p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹⁴N + ¹⁵²Sm	→	¹⁶⁶Tm	(9n, 8n6p, 8n1p, 10n2p, 8n, 7n6p, 7n1p, 9n2p, 7n, 6n6p, 6n1p, 8n2p, 6n, 9n5p, 5n1p, 7n2p, 5n, 8n5p, 4n1p, 6n2p, 4n, 7n5p, 3n1p, 9n6p, 5n2p, 3n, 5n5p)	R. Kossakowski J. Jastrzpbski, P. Rymuza et al.,	Physical Review, C 32 (1985) 1612
¹⁴N + ¹⁵⁹Tb	→	¹⁷³Hf	(1t, 2α, 1p, 1α, 1n, 1d, 1Li)	J.D.Hinnefeld, E.E.Koldenhof, H.K.W.Leegte, R.H.Siemssen, Z.Sosin,	Physics Letters, B225 (1989) 308-312
¹⁵N + ¹⁴⁰Ce	→	¹⁵⁵Tb	(6n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹⁶O + ¹²C	→	²⁸Si	(0n)	A. Goasduff, S. Courtin, F. Haas et al.,	Physical Review, C 89 (2014) 14305
¹⁶O + ¹⁶O	→	³²S	(1p+2p, d, 1α1p, 1α, 2α)	G. Hulke, C. Rolfs, H.P. Trautvetter,	Zeitschrift fur Physik, 297 (1980) 161-183
¹⁶O + ¹⁶O	→	³²S	(1n1p, 1n)	H. Spinka, H. Winkler,	Nuclear Physics, A 233 (1974) 456
¹⁶O + ³⁴S	→	⁵⁰Cr	(1n1p, 2n)	M.K. Go, S.S. Markowitz,	Physical Review, C7 (1973) 1464-1470
¹⁶O + ⁶³Cu	→	⁷⁹Rb	(1n, a2n+apn, 1n2p, 1α, 2n+pn, 2p, 1α1p, 2α, 3p, 3n+p2n)	J.C. Wells, R.L. Robinson, H.J. Kim, J.L.C. Ford,	Physical Review, C12 (1975) 1529-1539
¹⁶O + ⁸⁹Y	→	¹⁰⁵Ag	(5n1p, 2α3n, 2n, 1α1n, 3n, 1α2n, 4n, 1α3n, 3a1n (m), 3n1p, 2α1n, 4n1p, 2α2n)	B.S. Tomar, A. Goswami, A.V.R. Reddy et al.,	Zeitschrift fur Physik, A 343 (1992) 223
¹⁶O + ¹¹⁵In	→	¹³¹La	(1p1n (g+m), 2a3n (g), 1α3n1p, 2n1p, 2a3n (g+m), 1α4n1p, 3n1p, 2α4n, 4n1p, 3a1n (m), 1α5n1p, 1α, 3α2n, 2α2n, 1α2n, 3a3n (m), 2a3n (m), 1α1n1p)	Kamal Kumar, Tauseef Ahmad, Sabir Ali et al.,	Physical Review, C 88 (2013) 64613
¹⁶O + ¹³⁰Te	→	¹⁴⁶Nd	(5n, 1α3n, 3a1n (m), 3a1n (g), 3a3n (m))	Devendra P. Singh, Vijay R. Sharma, Abhishek Yadav et al.,	Physical Review, C 89 (2014) 24612
¹⁶O + ¹³⁴Ba	→	¹⁵⁰Gd	(1α3n, 3n1p, 2n1p, 1α5n, 3n, 4n, 5n, 1p4n+5n)	S. Della Negra, H. Gauvin, H. Jungclas, Y. Le Beyec, M. Lefort,	Zeitschrift fur Physik, A282 (1977) 65-73
¹⁶O + ¹³⁹La	→	¹⁵⁵Tb	(6n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹⁶O + ¹⁴⁸Nd	→	¹⁶⁴Er	(4n, 1α4n, 5n, 1α2n, 6n, 3n, 1α3n)	R. Broda, M. Ishihara, B. Herskind, H. Oeschler, S. Ogaza, H. Ryde,	Nuclear Physics, A248 (1975) 356
¹⁶O + ¹⁵⁰Nd	→	¹⁶⁶Er	(1α4n, 5n, 6n, 3n, 1α3n, 4n)	R. Broda, M. Ishihara, B. Herskind, H. Oeschler, S. Ogaza, H. Ryde,	Nuclear Physics, A248 (1975) 356
¹⁶O + ¹⁵⁹Tb	→	¹⁷⁵Ta	(3n)	Manoj Kumar Sharma, Pushendra P. Singh, Devendra P. Singh et al.,	Physical Review, C 91 (2015) 14603
¹⁶O + ¹⁶⁵Ho	→	¹⁸¹Re	(6n, 3n1p, 4n1p, 5n1p, 3n, 4n, 5n)	Kamal Kumar, Tauseef Ahmad, Sabir Ali et al.,	Physical Review, C 87 (2013) 44608
¹⁶O + ¹⁶⁹Tm	→	¹⁸⁵Ir	(3n)	Manoj Kumar Sharma, Pushendra P. Singh, Devendra P. Singh et al.,	Physical Review, C 91 (2015) 14603
¹⁶O + ¹⁸¹Ta	→	¹⁹⁷Tl	(3n, 1α3n, 3n1p, 4n, 4n1p, 1α1n, 5n, 1α2n, 5n1p)	Devendra P. Singh, Unnati, Pushpendra P. Singh et al.,	Physical Review, C80 (2009) 014601
¹⁶O + ¹⁸¹Ta	→	¹⁹⁷Tl	(3n (g+m), 3n (m), 3n (g))	Manoj Kumar Sharma, Pushendra P. Singh, Devendra P. Singh et al.,	Physical Review, C 91 (2015) 14603
¹⁶O + ¹⁹⁷Au	→	²¹³Fr	(5n, 6n, 7n, 3n, 4n)	S. Baba et al.,	Zeitschrift fur Physik, A331 (1988) 53
¹⁶O + ¹⁹⁷Au	→	²¹³Fr	(axnyp)	K.-T. Brinkmann, A.L. Caraley, B.J. Fineman, N. Gan, J. Velkovska, R.L,	Physical Review, C50 (1994) 1
¹⁶O + ²⁰⁸Pb	→	²²⁴Th	(3n, 4n, axn+pxn, 2n)	C.R.Morton, D.J.Hinde, J.R.Leigh, J.P.Lestone, M.Dasgupta et al.,	Physical Review, C52 (1995) 243-251
¹⁶O + ²⁰⁸Pb	→	²²⁴Th	(axnyp)	K.-T. Brinkmann, A.L. Caraley, B.J. Fineman, N. Gan, J. Velkovska, R.L,	Physical Review, C50 (1994) 1
¹⁶O + ²³⁸U	→	²⁵⁴Fm	(4n, 5n, 6n)	K. Nishio, H. Ikezoe, Y. Nagame, M. Asai, K. Tsukada, S. Mitsuoka, K. ,	Physical Review Letters, 93 (2004) 162701
¹⁸O + ³²S	→	⁵⁰Cr	(1n1p, 2n)	M.K. Go, S.S. Markowitz,	Physical Review, C7 (1973) 1464-1470
¹⁸O + ¹³⁹La	→	¹⁵⁷Tb	(8n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹⁸O + ¹⁴⁸Nd	→	¹⁶⁶Er	(4n, 5n, 6n)	R. Broda, M. Ishihara, B. Herskind, H. Oeschler, S. Ogaza, H. Ryde,	Nuclear Physics, A248 (1975) 356
¹⁸O + ¹⁹⁷Au	→	²¹⁵Fr	(4n+5n, 6n+7n, 8n)	L. Gorradi, B.R. Behera, E. Fioretto et al.,	Physical Review, C71 (2005) 014609
¹⁸O + ²⁴⁸Cm	→	²⁶⁶Rf	(5n)	Y. Nagame, M. Asai, H. Haba et al.,	J. Nucl. Rad. Sci., 3 (2002) 85
¹⁸O + ²⁴⁸Cm	→	²⁶⁶Rf	(5n)	M. Murakami, S. Goto, H. Murayama et al.,	Physical Review, C 88 (2013) 24618
¹⁹F + ¹³⁸Ba	→	¹⁵⁷Tb	(8n)	J.M. Alexander and G.N. Simonoff,	Physical Review, 130 (1963) 2383
¹⁹F + ¹⁸¹Ta	→	²⁰⁰Pb	(axn, 4n, 5n, 6n, 7n)	D.J.Hinde, J.R.Leigh, J.O.Newton, W.Galster, S.Sie,	Nuclear Physics, A385 (1982) 109-132
¹⁹F + ¹⁸⁸Os	→	²⁰⁷At	(5n, 3n, 4n)	K. Mahata, S. Kailas, A.Shrivastava, A.Chatterjee, A.Navin, P. Singh, ,	Nuclear Physics, A720 (2003) 209
¹⁹F + ¹⁹²Os	→	²¹¹At	(4n, 5n, 6n, 7n)	K. Mahata, S. Kailas, A.Shrivastava, A.Chatterjee, A.Navin, P. Singh, ,	Nuclear Physics, A720 (2003) 209
¹⁹F + ²⁴⁸Cm	→	²⁶⁷Db	(4n, 6n, 5n)	H. Haba, M. Huang, D. Kaji et al.,	Physical Review, C 89 (2014) 24618
²⁰Ne + ⁵⁵Mn	→	⁷⁵Br	(2α2n, 2α, 1α4n1p, 3α3n, 3α2n, 2α3n1p, 2α1n)	Rahbar Ali, D. Singh, M. Afzal Ansari et al.,	Journal of Physics, G 37 (2010) 115101
²⁰Ne + ⁵⁹Co	→	⁷⁹Rb	(3α, 2α, 1n2p, 3α1n, 2α1n, 1α, 3α2n, 2α2n, 1α1n, 4α2n, 2α1n1p, 1α1n1p, 2α3n1p, 1α4n1p, 1n1p, 2α4n1p, 1α1n2p, 2n1p)	D. Singh, R. Ali, M. Afzal Ansari et al.,	Physical Review, C 83 (2011) 54604
²⁰Ne + ¹⁵⁰Nd	→	¹⁷⁰Yb	(1α7n, 6n, 1α6n, 5n, 1α5n, 10n, 1α10n, 9n, 1α9n, 8n, 1α8n, 7n)	D.G. Sarantites, J.H. Barker, M.L. Halbert et al.,	Physical Review, C 14 (1976) 2138
²⁰Ne + ¹⁶⁵Ho	→	¹⁸⁵Ir	(1α2n, 2α1n, 1α3n, 2α, 4α3n, 1α4n, a2pn (m), 3n, 2α3n1p, 1α3n1p, 2n1p, 2α4n, 1α4n1p, 1p3n (g), 2α3n, 1α6n1p, 1α, 2α2n)	D. Singh, Rahbar Ali, M. Afzal Ansari et al.,	Nuclear Physics, A 879 (2012) 107
²²Ne + ²⁸Si	→	⁵⁰Cr	(1n1p, 2n)	M.K. Go, S.S. Markowitz,	Physical Review, C7 (1973) 1464-1470
²²Ne + ¹⁹⁰Os	→	²¹²Rn	(12n, 1α9n, 10n, 11n1p, 11n, 10n1p, 9n, 9n1p, 8n, 8n1p, 1α11n, 7n, 13n, 1α10n)	A.N. Andreev, D.D. Bogdanov, V.I. Chepigin et al.,	Nuclear Physics, A 626 (1997) 857
²²Ne + ¹⁹⁴Pt	→	²¹⁶Ra	(1p8n+1p9n, 1p4n+1p5n, 1p6n+1p7n, 4n+5n, 6n+7n, 1α9n, 8n+9n, 1α8n, 10n1p)	A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin et al.,	Nuclear Physics, A 620 (1997) 229
²²Ne + ¹⁹⁶Pt	→	²¹⁸Ra	(6n+7n, 12n1p, 5n, 1p10n+1p11n, 4n, 1p8n+1p9n, 1p6n+1p7n, 10n+11n, 1α11n, 8n+9n, 1α10n)	A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin et al.,	Nuclear Physics, A 620 (1997) 229
²²Ne + ¹⁹⁸Pt	→	²²⁰Ra	(10n+11n, 1p12n+1p13n, 8n+9n, 1p10n+1p11n, 7n, 1p8n+1p9n, 6n, 6n1p, 5n, 5n1p, 12n+13n, 1α12n)	A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin et al.,	Nuclear Physics, A 620 (1997) 229
²²Ne + ¹⁹⁷Au	→	²¹⁹Ac	(5n1p, 3n1p, 6n+7n, 5n (doublet 7.08, 7.14 MeV), 5n (line 7.21 MeV), 4n, 1p6n+1p7n, 3n)	A.N. Andreyev, D.D. Bogdanov, A.V. Eremin et al.,	Sov. J. Nucl. Phys., 50 (1989) 381
²²Ne + ²⁰⁸Pb	→	²³⁰U	(5n, 4n, 1α4n, 1α3n)	A.N. Andreyev, D.D. Bogdanov, A.V. Eremin et al.,	Sov. J. Nucl. Phys., 50 (1989) 381
²²Ne + ²⁴⁸Cm	→	²⁷⁰Sg	(5n)	H. Haba, D. Kaji, Y. Kudou et al.,	Physical Review, C 85 (2012) 24611
²⁶Mg + ²⁴⁸Cm	→	²⁷⁴Hs	(5n, 3n, 4n)	J. Dvorak, W. Bruchle, M. Chelnokov et al.,	Physical Review Letters, 100 (2008) 132503
³⁰Si + ¹⁷⁰Eu	→	²⁰⁰Ir	(4n, 7n, 5n, 6n)	D.J.Hinde, J.R.Leigh, J.O.Newton, W.Galster, S.Sie,	Nuclear Physics, A385 (1982) 109-132
³⁰Si + ²³⁸U	→	²⁶⁸Sg	(3n, 4n, 5n, 6n)	K. Nishio, S. Hofmann, F.P. Hebberger, D. Ackermann, S. Antalic et al.,	European Physical Journal, A29 (2006) 281-287
³⁰Si + ²³⁸U	→	²⁶⁸Sg	(3n, 4n, 5n)	Katsuhisa Nishio,	Journal of Physics, 312 (2011) 82007
³⁴Si + ²³⁸U	→	²⁷²Sg	(4n, 5n)	Katsuhisa Nishio,	Journal of Physics, 312 (2011) 82007
³²S + ¹⁸²W	→	²¹⁴Th	(ap2n+ap3n, 3n, apn+3p2n+3p3n, a2n+a3n+2p4n+2p5n, 2p2n+2p3n, p4n+p5n, p2n+p3n, 4n)	S. Mitsuoka, H. Ikezoe, K. Nishio, and J. Lu,	Physical Review, C62 (2000) 054603
³⁴S + ²⁰⁷Pb	→	²⁴¹Cf	(3n)	Yu. Ts. Oganessian, V. K. Utyonkov, Yu. V. Lobanov et al.,	Physical Review, C64 (2001) 054606
³⁴S + ²³⁸U	→	²⁷²Hs	(5n, 4n)	K. Nishio, S. Hofmann, F.P. Hessberger et al.,	Physical Review, C 82 (2010) 24611
³⁶S + ²⁰⁷Pb	→	²⁴³Cf	(2n, 3n)	J. Khuyagbaatar, F.P. Hessberger, S. Hofmann et al.,	European Physical Journal, A 46 (2010) 59
³⁶S + ²⁰⁷Pb	→	²⁴³Cf	(3n, 2n)	J. Khuyagbaatar, F.P. Hessberger, S. Hofmann et al.,	European Physical Journal, A 46 (2010) 59
³⁶S + ²⁰⁷Pb	→	²⁴³Cf	(2n, 3n)	J. Khuyagbaatar, F.P. Hessberger, S. Hofmann et al.,	European Physical Journal, A 46 (2010) 59
⁴⁰Ar + ¹¹⁰Pd	→	¹⁵⁰Gd	(1α3n, 2α3n, 3n1p, 4n, 1α5n1p, 5n, 1p4n+5n, 1α5n, 3n)	S. Della Negra, H. Gauvin, H. Jungclas, Y. Le Beyec, M. Lefort,	Zeitschrift fur Physik, A282 (1977) 65-73
⁴⁰Ar + ¹⁶⁴Dy	→	²⁰⁴Po	(10n, 4n, 5n, 8n, 6n, 9n, 7n)	T. Sikkeland, R.J. Silva, A. Ghiorso, M.J. Nurmia,	Physical Review, C1 (1970) 1564-1572
⁴⁰Ar + ¹⁶⁵Ho	→	²⁰⁵At	(3n, 4n, 5n, 6n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁶⁹Tm	→	²⁰⁹Fr	(2n+3n, 4n, 5n, 6n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁷¹Yb	→	²¹¹Ra	(6n, p3n+p4n, p1n+p2n, 3n+4n, 5n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁷⁴Yb	→	²¹⁴Ra	(4n+5n, 6n+7n, p4n+p5n, 2n+3n, p2n+p3n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁷⁵Lu	→	²¹⁵Ac	(1a2n+1a3n, 2n+3n, 4n+5n, 6n, 1p4n+1p5n, 1p2n+1p3n, 1a4n+1a5n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁷⁶Hf	→	²¹⁶Th	(1a2n+1a3n, 4n+5n, 2n+3n, 1p4n+1p5n, 1p2n+1p3n, 1a4n+1a5n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁷⁷Hf	→	²¹⁷Th	(2n1p, 1a3n+1a4n, 5n+6n, 1a1n+1a2n, 3n+4n, 1p5n+1p6n, 1p3n+1p4n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁷⁸Hf	→	²¹⁸Th	(1p4n+1p5n, 1a4n+1a5n, 2n1p, 3n, 3n1p, 1a2n+1a3n, 4n+5n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁷⁹Hf	→	²¹⁹Th	(5n+6n, 4n, 1p5n+1p6n, 3n, 4n1p, 3n1p, 2n1p, 1a3n+1a4n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁸⁰Hf	→	²²⁰Th	(4n1p, 6n+7n, 5n, 1a4n+1a5n, 5n1p, 3n, 1α3n, 3n1p, 4n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁰Ar + ¹⁸¹Ta	→	²²¹Pa	(1a4n+1a5n, 1α3n, 1α2n, 6n, 4n1p, 5n, 3n1p, 4n, 1a6n+1a7n, 3n)	D.Vermeulen, H.-G.Clerc, C.-C.Sahm,K.-H.Schmidt, J.G.Keller et al.,	Zeitschrift fur Physik, A318 (1984) 157-169
⁴⁴Ca + ¹⁵⁸Gd	→	²⁰²Po	(6n, 5n, 4n, 3n)	T.A. Werke, D.A. Mayorov, M.C. Alfonso et al.,	Physical Review, C 92 (2015) 54617
⁴⁴Ca + ¹⁵⁹Tb	→	²⁰³At	(4n, 3n, 5n1p, 4n1p, 3n1p, 5n)	T.A. Werke, D.A. Mayorov, M.C. Alfonso et al.,	Physical Review, C 92 (2015) 54617
⁴⁴Ca + ¹⁶²Dy	→	²⁰⁶Rn	(2n1p, 5n, 3n, 4n, 5n1p, 4n1p, 3n1p)	T.A. Werke, D.A. Mayorov, M.C. Alfonso et al.,	Physical Review, C 92 (2015) 54617
⁴⁴Ca + ²⁰⁸Pb	→	²⁵²No	(3n, 2n)	A.V. Belozerov, M.L. Chelnokov, V.I. Chepigin et al.,	European Physical Journal, A 16 (2003) 447
⁴⁸Ca + ¹⁵⁴Gd	→	²⁰²Po	(4n, 3n, 5n)	D.A. Mayorov, T.A. Werke, M.C. Alfonso et al.,	Physical Review, C 90 (2014) 24602
⁴⁸Ca + ¹⁵⁹Tb	→	²⁰⁷At	(6n, 5n, 4n, 3n)	D.A. Mayorov, T.A. Werke, M.C. Alfonso et al.,	Physical Review, C 90 (2014) 24602
⁴⁸Ca + ¹⁶²Dy	→	²¹⁰Rn	(3n, 6n, 4n+5n)	D.A. Mayorov, T.A. Werke, M.C. Alfonso et al.,	Physical Review, C 90 (2014) 24602
⁴⁸Ca + ¹⁶⁵Ho	→	²¹³Fr	(6n, 4n+5n, 3n)	D.A. Mayorov, T.A. Werke, M.C. Alfonso et al.,	Physical Review, C 90 (2014) 24602
⁴⁸Ca + ¹⁷²Yb	→	²²⁰Th	(4n, 5n, 6n, 3n)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
⁴⁸Ca + ¹⁷³Yb	→	²²¹Th	(5n, 4n)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
⁴⁸Ca + ¹⁷⁶Yb	→	²²⁴Th	(4n)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
⁴⁸Ca + ¹⁸⁰Hf	→	²²⁸U	(3n)	H.W. Gaggeler, D.T. Jost, A. Turler et al.,	Nuclear Physics, A 502c (1989) 561
⁴⁸Ca + ¹⁸⁴W	→	²³²Pu	(3n)	H.W. Gaggeler, D.T. Jost, A. Turler et al.,	Nuclear Physics, A 502c (1989) 561
⁴⁸Ca + ¹⁹⁷Au	→	²⁴⁵Es	(2n)	H.W. Gaggeler, D.T. Jost, A. Turler et al.,	Nuclear Physics, A 502c (1989) 561
⁴⁸Ca + ²⁰⁴Pb	→	²⁵²No	(2n)	Yu. Ts. Oganessian, V. K. Utyonkov, Yu. V. Lobanov et al.,	Physical Review, C 64 (2001) 054606
⁴⁸Ca + ²⁰⁴Pb	→	²⁵²No	(3n, 2n)	A.V. Belozerov, M.L. Chelnokov, V.I. Chepigin et al.,	European Physical Journal, A 16 (2003) 447
⁴⁸Ca + ²⁰⁶Pb	→	²⁵⁴No	(1n, 4n, 3n, 2n)	Yu. Ts. Oganessian, V. K. Utyonkov, Yu. V. Lobanov et al.,	Physical Review, C 64 (2001) 054606
⁴⁸Ca + ²⁰⁶Pb	→	²⁵⁴No	(3n (old), 2n (new), 2n (old), 1n (new), 1n (old), 4n (new), 3n (new))	A.V. Belozerov, M.L. Chelnokov, V.I. Chepigin et al.,	European Physical Journal, A 16 (2003) 447
⁴⁸Ca + ²⁰⁷Pb	→	²⁵⁵No	(2n)	Yu. Ts. Oganessian, V. K. Utyonkov, Yu. V. Lobanov et al.,	Physical Review, C 64 (2001) 054606
⁴⁸Ca + ²⁰⁸Pb	→	²⁵⁶No	(2n)	Yu. Ts. Oganessian, V. K. Utyonkov, Yu. V. Lobanov et al.,	Physical Review, C 64 (2001) 054606
⁴⁸Ca + ²⁰⁸Pb	→	²⁵⁶No	(2n, 4n, 3n)	A.V. Belozerov, M.L. Chelnokov, V.I. Chepigin et al.,	European Physical Journal, A 16 (2003) 447
⁴⁸Ca + ²⁰⁸Pb	→	²⁵⁶No	(3n, 2n, 1n)	H.W. Gaggeler, D.T. Jost, A. Turler et al.,	Nuclear Physics, A 502c (1989) 561
⁴⁸Ca + ²⁰⁹Bi	→	²⁵⁷Lr	(3n, 2n, 1n)	H.W. Gaggeler, D.T. Jost, A. Turler et al.,	Nuclear Physics, A 502c (1989) 561
⁴⁸Ca + ²³³U	→	²⁸¹Cn	(xaynzp)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²³⁸U	→	²⁸⁶Cn	(3n, 4n)	Yu.Ts. Oganessian, V.K. Utyonkov, Yu.V. Lobanov et al.,	Physical Review, C 70 (2004) 064609
⁴⁸Ca + ²³⁸U	→	²⁸⁶Cn	(4n, 3n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²³⁸U	→	²⁸⁶Cn	(3n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²³⁷Np	→	²⁸⁵Nh	(3n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²³⁹Pu	→	²⁸⁷Fl	(3n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁰Pu	→	²⁸⁸Fl	(4n, 3n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁰Pu	→	²⁸⁸Fl	(3n)	V. K. Utyonkov, N. T. Brewer, Yu. Ts. Oganessian et al.,	Physical Review, C 97 (2018) 14320
⁴⁸Ca + ²⁴²Pu	→	²⁹⁰Fl	(4n, 3n, 2n)	Yu.Ts. Oganessian, V.K. Utyonkov, Yu.V. Lobanov et al.,	Physical Review, C 70 (2004) 064609
⁴⁸Ca + ²⁴²Pu	→	²⁹⁰Fl	(4n, 3n, 2n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴²Pu	→	²⁹⁰Fl	(3n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴²Pu	→	²⁹⁰Fl	(4n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴²Pu	→	²⁹⁰Fl	(5n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁴Pu	→	²⁹²Fl	(4n, 3n, 5n)	Yu.Ts. Oganessian, V.K. Utyonkov, Yu.V. Lobanov et al.,	Physical Review, C 69 (2004) 054607
⁴⁸Ca + ²⁴⁴Pu	→	²⁹²Fl	(4n, 5n, 3n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁴Pu	→	²⁹²Fl	(3n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁴Pu	→	²⁹²Fl	(4n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴³Am	→	²⁹¹Mc	(4n, 3n)	Yu.Ts. Oganessian, V.K. Utyonkov, Yu.V. Lobanov et al.,	Physical Review, C 69 (2004) 021601(R)
⁴⁸Ca + ²⁴³Am	→	²⁹¹Mc	(4n, 3n, 2n)	Yu.Ts. Oganessian, F.Sh. Abdullin, S.N. Dmitriev et al.,	Physical Review Letters, 108 (2012) 22502
⁴⁸Ca + ²⁴³Am	→	²⁹¹Mc	(4n, 3n, 2n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁵Cm	→	²⁹³Lv	(3n, 2n)	Yu.Ts. Oganessian, V.K. Utyonkov, Yu.V. Lobanov et al.,	Physical Review, C 69 (2004) 054607
⁴⁸Ca + ²⁴⁵Cm	→	²⁹³Lv	(4n, 3n, 2n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁸Cm	→	²⁹⁶Lv	(3n, 4n)	Yu.Ts. Oganessian, V.K. Utyonkov, Yu.V. Lobanov et al.,	Physical Review, C 70 (2004) 064609
⁴⁸Ca + ²⁴⁸Cm	→	²⁹⁶Lv	(4n, 3n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁸Cm	→	²⁹⁶Lv	(3n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁸Cm	→	²⁹⁶Lv	(4n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁹Bk	→	²⁹⁷Ts	(4n, 3n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁹Bk	→	²⁹⁷Ts	(3n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁹Bk	→	²⁹⁷Ts	(5n (data from reference))	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁴⁸Ca + ²⁴⁹Cf	→	²⁹⁷Og	(3n)	Yu.Ts. Oganessian and V.K. Utyonkov,	Rep. Prog. Phys., 78 (2015) 36301
⁵⁰Ti + ²⁰⁸Pb	→	²⁵⁸Rf	(3n, 2n, 1n)	F.P. Hessberger, S. Hofmann, D. Ackermann et al.,	European Physical Journal, A 16 (2001) 57
⁵⁰Ti + ²⁰⁹Bi	→	²⁵⁹Db	(3n, 2n, 1n)	S. Hofmann et al.,	private communication, (2000)
⁵⁰Ti + ²⁰⁹Bi	→	²⁵⁹Db	(3n, 2n, 1n)	F.P. Hessberger, S. Hofmann, D. Ackermann et al.,	European Physical Journal, A 16 (2001) 57
⁴⁸Ti + ¹²²Sn	→	¹⁷⁰Hf	(4n, 5n, 6n, 2n, 3n)	S. Gil, F. Hasenbalg, J.E. Testoni et al.,	Physical Review, C51 (1995) 1336-1344
⁵⁰Ti + ¹⁶⁰Gd	→	²¹⁰Rn	(4n + 5n)	D.A. Mayorov, T.A. Werke, M.C. Alfonso et al.,	Physical Review, C 92 (2015) 54601
⁵⁰Ti + ¹⁵⁹Tb	→	²⁰⁹Fr	(p2n + p3n, 5n, 4n, 3n, p4n)	D.A. Mayorov, T.A. Werke, M.C. Alfonso et al.,	Physical Review, C 92 (2015) 54601
⁵⁰Ti + ¹⁶²Dy	→	²¹²Ra	(p2n + p3n, 4n + 5n, 3n)	D.A. Mayorov, T.A. Werke, M.C. Alfonso et al.,	Physical Review, C 92 (2015) 54601
⁵⁰Ti + ²⁰⁸Pb	→	²⁵⁸Rf	(3n, 2n, 1n)	S. Hofmann et al. (all accumulated events),	Nuclear Physics, A 734 (2004) 93
⁵⁴Cr + ¹⁶²Dy	→	²¹⁶Th	(p2n + p3n, 4n + 5n)	D.A. Mayorov, T.A. Werke, M.C. Alfonso et al.,	Physical Review, C 92 (2015) 54601
⁵⁴Cr + ²⁰⁸Pb	→	²⁶²Sg	(1n, 3n, 2n)	S. Hofmann et al. (all accumulated events),	Nuclear Physics, A 734 (2004) 93
⁵⁴Cr + ²⁰⁹Bi	→	²⁶³Bh	(2n, 1n)	G. Muenzenberg, S. Hofmann, F.P. Hessberger et al.,	Zeitschrift fur Physik, A 300 (1981) 107
⁵⁸Fe + ²⁰⁸Pb	→	²⁶⁶Hs	(2n, 1n)	S. Hofmann et al. (all accumulated events),	Nuclear Physics, A 734 (2004) 93
⁵⁸Fe + ²⁰⁹Bi	→	²⁶⁷Mt	(1n)	G. Muenzenberg, W. Reisdorf, S. Hofmann et al.,	Zeitschrift fur Physik, A 315 (1984) 145
⁵⁸Ni + ⁵⁰Cr	→	¹⁰⁸Te	(1α3n, 1α3n1p, 2α1n, 1α1n1p)	M. La Commara, J. Gomez del Campo, A. D'Onofrio et al.,	Nuclear Physics, A 669 (2000) 43
⁵⁸Ni + ⁵⁸Ni	→	¹¹⁶Ba	(12C3n, 12C1p3n, 12C1a1n, 12C1p1n)	M. La Commara, J. Gomez del Campo, A. D'Onofrio et al.,	Nuclear Physics, A 669 (2000) 43
⁶⁰Ni + ¹⁵⁴Sm	→	²¹⁴Th	(a2n+a3n+2p4n, an+2p2n+2p3n, p4n+p5n, p2n+p3n, 4n, ap2n+ap3n, 2n+3n, ap+apn+3p2n)	S. Mitsuoka, H. Ikezoe, K. Nishio, and J. Lu,	Physical Review, C62 (2000) 054603
⁶²Ni + ²⁰⁸Pb	→	²⁷⁰Ds	(1n)	S. Hofmann, V. Ninov, F.P. Hessberger et al.,	Zeitschrift fur Physik, A 350 (1995) 277
⁶⁴Ni + ²⁰⁸Pb	→	²⁷²Ds	(1n)	S. Hofmann, V. Ninov, F.P. Hessberger et al.,	Zeitschrift fur Physik, A 350 (1995) 277
⁶⁴Ni + ²⁰⁸Pb	→	²⁷²Ds	(1n)	K. Morita, K. Morimoto, D. Kaji et al.,	Nuclear Physics, A 734 (2004) 101
⁶⁴Ni + ²⁰⁹Bi	→	²⁷³Rg	(1n)	K. Morita, K. Morimoto, D. Kaji et al.,	Nuclear Physics, A 734 (2004) 101
⁶⁴Ni + ²⁰⁹Bi	→	²⁷³Rg	(1n)	S. Hofmann, V. Ninov, F.P. Hessberger et al.,	Zeitschrift fur Physik, A 350 (1995) 281
⁸⁶Kr + ¹²¹Sb	→	²⁰⁷Fr	(3n, 2n, 4n)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
⁸⁶Kr + ¹²³Sb	→	²⁰⁹Fr	(5n, 4n, 2n+3n)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
¹²⁴Sn + ⁹⁰Zr	→	²¹⁴Th	(1p2n+1p3n, 2n+3n, 1n)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
¹²⁴Sn + ⁹²Zr	→	²¹⁶Th	(1p2n+1p3n, 1n1p, 1p, 4n+5n, 2n+3n, 1a2n+1a3n, 1n, 1α1n)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
¹²⁴Sn + ⁹⁴Zr	→	²¹⁸Th	(6n+7n, 1a4n+1a5n, 4n+5n, 1a2n+1a3n, 3n, 1α1n, 2n, 1p4n+1p5n, 1n, 3n1p, 2n1p)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
¹²⁴Sn + ⁹⁴Zr	→	²¹⁸Th	(1n, 2n, 3n, 4+5n)	K.-H. Schmidt, P. Armbruster, F.P. Helssberger, G. Munzenberg, W. Reis,	Zeitschrift fur Physik, A301 (1981) 21-28
¹²⁴Sn + ⁹⁶Zr	→	²²⁰Th	(1α3n, 6n+7n, 1α2n, 5n, 1α1n, 4n, 1p6n+7n, 3n, 5n1p, 2n, 4n1p, 1a4n+5n, 1n, 3n1p)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt, et al.,	Nuclear Physics, A 441 (1985) 316
¹²⁴Sn + ⁹⁶Zr	→	²²⁰Th	(3n, 2n, 1n, 6n + 7n, 5n, 4n)	C.-C. Sahm, H.-G. Clerc, K.-H. Schmidt et al.,	Zeitschrift fur Physik, A 319 (1984) 113

totally 305 reactions