[1] George W.Arnold: Nucl. Instrum. Meth., 1993, B80-81, 1036. [2] T.Hioki, A.Itoh, M.Ohkubo, S.Noda, H.Doi, J.Kawamoto and O.Kamigaito: J. Mater. Sci., 1986, 21, 1321. [3] C.J.Mchargue, W.B.Smyder: SPIE, 1993, 2018, 135. [4] N.Gurauie, D.N.Jamieson, R.Szymsanski, A.V.Orlov, J.S.Williams and M.Conway: Nucl. lustrum. Meth., 1999, B147, 221. [5] M.Ikeyama, S.Nakao, M.Tazawa, K.Kadono and K.Kamada: Nucl. Instrum. Meth., 2001, B652, 175. [6] H.W.Lehmann and Hs.H.Gunthard: J. Phys. Chem. Solids, 1964, 25, 941. [7] K.H.Lee and J.H.Crawford, Jr: Phys. Rev., 1977, B15(8), 4065. [8] G.J.Pogatshnik, Y.Chen and B.D.Evans: IEEE T. Nucl. Sci., 1987, 34(6), 1079. [9] B.D.Evans, G.J.Pogatshnik and Y.Chen: Nucl. Instrum. Methads., 1994, B91, 258. [10] T.Tanabe, M.Fujiwara and K.Miyazaki: J. Nucl. Mater., 1996, 233-234, 1344. [11] K.Aono, H.Toida, K.Terashima and M.Iwaki: Nucl. In- strum. Meth., 2001, B175-177, 580. [12] E.Alves, C.Marques, L.C.Onony and C.McHargue: Nucl. Instrum. Meth., 2004, B218, 222. [13] E.Alves, R.C.da Silva, M.F.da Silva and J.C.Soares: Nucl. Instrum. Meth., 1999, B147, 226. [14] T.Monteiro, C.Boemare, M.J.Soares, E.Alves, C.Marques, C.McHargue, L.C.Ononye and L.F.Allard: Nucl. Instrum. Meth., 2002, B191, 638. [15] C.Marques, E.Alves, R.C.da Silva, M.R.Silva and A.L.Stepanov: Nucl. Instrum. Meth., 2004, B218, 139. [16] C.Marques, M.M.Cruz, R.C.da Silva and E.Alves: Surf Coat. Tech., 2002, 158-159, 54. [17] N.K.Huang, K.Neubeck, S.Yamamoto, Y.Aoki, H.Abe, K.Narumi, A.Miyashita and H.Naramoto: Phys. Status. Solidi., 1998, A165, 367. [18] B.D.Evans and M.Stapelbrock: Phys. Rev., 1978, B18, 7089. [19] B.G.Draeger and G.P.Summers: Phys. Rev., 1979, B19, 1172. [20] N.K.Huang, B.Tsuchiya, K.Neubeck, S.Yamamoto, K.Narumi, Y.Aoki, H.Abe, A.Miyashita, H.Ohno and H.Naramoto: Nucl. Ihstrum. Meth., 1998, B143, 479.w |