Independent
references to the papers of T.Kemény to 3rd May, 2005
(numbers in [] refer to his
list of publications)
[1] B. Fogarassy, T. Kemény, L. Pál and J. Tóth:
Electronic
specific heat of iron-rhodium and iron-rhodium-iridium alloys,
Phys. Rev. Letters
29, 288 (1972)
***
1. C.J. Schinkel, J. Phys.
F. 4, 1412 (1974)
2. S.B. Palmer, phys. stat.
sol. 32, 503 (1975)
3. R. Riedinger, J. Phys. F. 9, 337
(1979)
4. L.Y. Chen, Phys. Rev. B
37, 10503 (1988)
5. A.Jezierski, J.Magn.Magn.Mater. 140-144, 81 (1995)
6. M. E. Gruner et al., Phys.
Rev. B 67, 064415 (2003)
[2] T. Kemény, G.J. Nieuwenhuys and H. Algra:
The
heat capacity of gold-chromium spin-glass alloys,
14th
Int. Conf. Low Temperature Physics, North Holland, 1975
Vol.
5., p. 441.
***
1. P.A. Beck, Prog. Mat. Sci. 23, 1 (1980)
2. I.A. Campbell et al.,
Phys. Rev. B 26, 5195 (1982)
3. Amamou A., Caudron R.,
Costa P., Friedt J.M., Gautier F., Loegel B.,
Journal
of Physics F 6, 2371 (1976)
4. Ford P.J., Mydosh J.A., Phys.
Rev. B14, 2057 (1976)
5. Fischer K.H., Solid State
Commun. 18, 1515 (1976)
6. Das S.K., Tripathi R.S.,
Joshi S.K., Physica Status Sol. B108, 581 (1981)
[5] T.Kemény, B. Fogarassy and E. Tóth-Kádár:
Crystallization
kinetics of metallic glasses
Proc.
3rd Int. Conf. on Soft Magnetic Materials, Bratislava, 1977, Ed.: O. Benda
Part
I, p. 201
***
1. H.J.V. Nielsen, J.Magn.Magn.Mat. 12, 187 (1979)
2. D.Yu.Paderno, Poroskovaya Metallurgija p.84. No.3. (1983)
3. É.Kisdi-Koszó et al., Rapidly Quenched Metals, Eds.: S. Steeb and H. Warlimont, Elsevier
1985, p. 299.
4. V. Pitterman, Phys. State Sol.
a93, 131 (1986)
5. I. Bakonyi et al., Z. Mkde 77, 425 (1986)
6. Kang-Heon Hur et al. J. Mat. Sci. 25, 2573
(1990)
7. É.Kisdi-Koszó et al., J. Magn. Magn. Mater. 15-8,
1383 (1980)
8. Lovas A. et al., J. Magn. Magn. Mater. 19,
168 (1980)
9. J. Tóth, Mater. Res. Bull. 13, 691 (1978)
10. S.D. Kaloshkin, Fiz. Met. Metalloved. 63, 202
(1987)
11. S.D. Kaloshkin, I.A. Tomilin, Zh. Fiz. Khim. 70,
27 (1996
[6] U. Volland, S. Hösl, H. Spiering, I.
Dézsi, T. Kemény and D.L. Nagy:
Phase
transformation in ferrous fluosilicate hexahydrate: X-ray and DSC study,
Solid
State Commun. 27, 49 (1978)
*****
1. Asadov, S.K. et al., Physica B 182, 167
(1992)
2. Asadov, S.K. et al., Fiz. Tverd. Tela, 32, 2420 (1990)
3. Chevrier, G. and Saintjames, R., Acta Crystallogr.
Sect. C 46, 186 (1990)
4. Thakur, G. and Verma, A.L., Spectroc. Acta Pt. A 45,
615 (1989)
5. Eremenko, V.V. et al., Kristallografiya 34,
658 (1989)
6. Asadov, S.K. et al., Phys. Status Solidi A 109,
307 (1988)
7. Chattopadhyay, T. et al., J Phys.C 21, 1321
(1988)
8. Bose, M. et al., Phys. Rev. B 35, 6619
(1987)
9. Chevrier, G. et al., Acta Crystallogr. Sect. A 37,
578 (1981)
10. Lewis, J. and Jenkins, T.E., Raman Spectrosc. 8,
111 (1979)
[7] T.
Kemény, Z. Pokó, G. Mihály, K. Holczer and G. Grüner
Role
of solvent in phase transiton of NMeQn/TCNQ/ ,
J.
Mol. Cryst. and Liquid Cryst. 48, 201 (1978)
*****
Starodub V.A. , Krivoshei I.V., Uspekhi Khimii, 51,
764 (1982)
[9] T. Kemény, I. Vincze, B. Fogarassy and J.Balogh:
Crystallization
and chemical short-range order in metallic glasses,
Conference
on Amorphous Metallic Materials (Smolenice, Czechoslovakia, 1978) ,
Ed.:
P. Duhaj and P. Mrafko, Veda Publ.
House, Bratislava 1980, p. 183.
***
1. E. Babic, ibid
p. 15.
2. P. Mrafko, ibid p. 245.
3. A. Bhatnagar et al.,
Solid St. Commun. 44, 905 (1982)
4. C. Cunat et al., J.Non-Cryst.
Sol. 55, 45 (1983)
5. C. Cunat et al., J. de
Physique 43, C9-1911 (1982)
6. S. Steeb et al., Z.
Metkde 75, 599 (1984)
7. S. Budurov et al., J.
Mat. Sci. 21, 2553 (1986)
8. V.Z.Bengus et al., Key
Eng. Mat. 40-41, 333 (1990)
9. V.Z.Bengus et al., J.
Mat. Sci. 25, 1598 (1990)
10. J.V. Kondoro, Phys. St. Sol. a125, 67 (1991)
11. V.Z. Bengus et al., Materials Science and Engineering A355 (2003)
88
[10] T. Kemény, B. Fogarassy, S. Arajs and C.A. Moyer:
Heat
capacity studies of chromium-rich antiferromagnetic chromium-iron alloys,
Phys.
Rev. B19, 2975 (1979)
***
1. G. Benediktsson et al., J. Phys. F 12, 1439 (1982)
2. E. Fawcett et al., Rev. Mod. Phys. 66, 25 (1995)
3. Crisan M,
Gulacsi Z, Gulacsi M, Can J Phys 61,: 1599 (1983)
[8] T. Kemény, I. Vincze, B. Fogarassy and S. Arajs:
On
the stability and crystallization of Fe-B
Alloys,
Proc.
3rd Int. Conf. Rapidly Quenched Metals (Brighton)
Ed.:
B. Cantor, The Metals Soc., London 1978, Vol. 1. , p. 291.
and
[11] T. Kemény, I. Vincze, B. Fogarassy and S. Arajs:
Structure
and crystallization of Fe-B metallic glasses,
Phys.
Rev. B20, 476 (1979)
***
1. U. Gonser, J. de Physique 41, C1-51 (1980)
2. D.C. Prince et al., J. de Physique
41, C1-263 (1980)
3. H.S. Chen, Reports on
Progr. in Phys. 43, 353 (1980)
4. J.Y. Laval, Electron
Microsc. 1, 278 (1980)
5. H.N.Ok. and A.H.
Morrish, Phys.Rev. B22, 3471 (l980)
6. H.G.Wagner et al., J. de Physique 41, C8-199 (1980)
7. F.Stobiecki et al., J.
de Physique 41, C8-171 (1980)
8. C.Antonione et al., J.
de Physique 41, C8-131 (1980)
9. N.E. Lines, Solid St.
Commun. 36, 457 (1980)
10. U.Gonser and H.G. Wagner, in Liquid and amorphous metals, edited
by E. Lüscher and H. Coufal, NATO Advanced
Study Institutes Series, Series E.: Applied
Sciences, No-36, 1980, p. 421.
11. U. Köster and U. Herold, Materials Science and Engineering 45,
285 (1980)
12. A.S.Schaafsma et al., Phys. Rev. B20, 4423 (1980)
13. B. Predel, Physica 103B, 113 (1981)
14. U. Köster and U. Herold, Topics in Applied Physics, Vol. 46,
1981, p. 225.
15. P.J. Schurer and A.H. Morrish, Phys. Rev. B23, 1006
(1981)
16. R. Caton et al., J. Non-Cryt. Sol. 40, 407 (1980)
17. M. Kijek et al., Scripta Met. 14, 1337 (1980)
18. H.J.V. Nielsen, Phys. Stat. Sol.(a) 61, K111 (1980)
19. H.N. Ok and A.H. Morrish, Phys. Rev. B22, 4215 (1980)
20. L.M. Mei et al., J.Appl. Phys. 52, 1856 (1981)
21. Y.C. Kuo et al., J.Appl. Phys. 52, 1889 (1981)
22. M.N. Baibich et al., J.Appl. Phys. 52, 1886 (1981)
23. M.Matsura et al., J.Phys. F: Metal Phys. 11, 1393
(1981)
24. V. Dose and A. Haertl, Phys.Rev.Letters 47, 132 (1981)
25. J.C. Swartz et al., J.Appl. Phys. 52, 3324 (1981)
26. D.J. Joyner et al., Phys. Rev. B24, 3122 (1981)
27. M.C. Lin et al., Phys, Rev. B24, 3719 (1981)
28. P.H. Shingu et al., Supplement to Sci.Rep.RITU 28A, 85
(1980)
29. P.E. Fujita, Supplement to Sci.Rep.RITU 28 A, 1 (1980)
30. J. Filipecki et al., Phys.Stat.Sol. (a) 66, 463 (1981)
31. F.E. Luborsky and F. Bacon, Proc. 4th Int. Conf. on Rapidly
Quenched Metals
(Sendai,
1981), Vol. 1, 561 (1982)
32. K. Nagata et al., ugyanott, Vol. 1, 635 (1982)
33. M. Koshimura et al., ugyanott, Vol. 2, 1113 (1982)
34. M. Matsuura and U. Mizutani, ugyanott, Vol. 2. 1291
(1982)
35. S. Al Bijat et al., ugyanott, Vol. 1, 687 (1982)
36. S. Morimoto et al., ugyanott, Vol. 1, 695 (1982)
37. C. Kim et al., ugyanott, Vol. 1, 723 (1982)
38. N.Saegusa and A.H. Morrish, Phys.Rev. B26, 305 (1981)
39. H.N. Ok et al., Phys.Rev.
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40. F.L. Cunbrera et al., J.Mat. Sci. 17, 2677 (1982)
41. W.K. Wang et al., J. Mat. Science 15, 2701 (1980)
42. M. Scott, in Amorphous Metallic Materials, Ed.: P. Duhaj and P. Mrafko, Veda Publishing House of the
Slovak
Academy of Science,
Bratislava 1980, p. 291.
43. A. Inoue and T. Masumoto, Sci. Rep. RITU 27A, 147 (1979)
44. K. Hoselitz, J.Magn. Magn. Mat. 20, 201 (1980)
45. U. Herold et al., J.Magn. Magn. Mat. 19, 152 (1980)
46. H.J.V. Nielsen, J.Magn.
Magn. Mat. 19, 138 (1980)
47. S. Tyagi et al., Appl. Phys. Letters 37, 618 (1980)
48. L. Novak et al., J.Magn. Magn. Mat. 19, 149 (1980)
49. C. Weissman et al., Thin Solid Films 72, 19 (1980)
50. V. Khan and M. Sostarich, Z. Metallkde 72, 266 (1981)
51. G. Hunger et al., Z. Metallkde 70, 714 (1979)
52. M. Stubicar, J.Mat. Science 14, 1245 (1979)
53. K. Hoselitz, Phys. Stat. Sol. (a) 53, K23 (1979)
54. H.J.V. Nielsen, Solid St. Commun. 30, 239 (1979)
55. A.R. Bhati et al., J.Magn. Magn. Mat. 15-18, 1413 (1980)
56. J.M. Dubois et al., Rev. Phys. Appl. 15, 1103 (1980)
57. U. Gonser et al., J.Magn. Magn. Mat. 15-18, 1355 (1980)
58. H.J.V. Nielsen, Z. Metallkde 70, 180 (1979)
59. R. Oshima and F.E. Fujita, Jap. J.Appl. Phys. 20, 1 (1981)
60. K. Osamura et al., J.Mat. Sci. 16, 957 (1981)
61. J. Kamarad et al., M.Magn. Magn. Mat. 23, 69 (1981)
62. P. Duhaj, Proc. Conf. on Metallic Glasses: Science and
Technology,
Budapest
1980, Vol. 1., p. 29.
63. L. Takács and C. Hargitai, ugyanott Vol. 1., p. 333
64. A. Cziráki, ugyanott, Vol. 2., p. 197
65. A. Lovas et al., ugyanott, Vol. 2., p. 291
66. G. Petö et al., ugyanott,
Vol. 2., p. 311
67. Ju.F. Komnik, Fiz. Nizk. Tyemp. 8., 3 (1982)
68. K. Dini et al., J.Phys. F: Metal Phys. 12 , 1553 (1982)
69. S. Ranganathan, Proc. Conf. on Metallic Glasses:
Sciences and
Technology, Budapest 1980, Vol. 2, p. 327
70. P. Panissod et al., Nucl. Instr. Meth. 199, 99 (1982)
71. J. Korecki et al., Nucl.
Instr. Meth. 199, 215 (1982)
72. J.M. Dubois and G.Le Caer, Nucl. Instr. Meth. 199, 307
(1982)
73. D.W. Forester et al., J.Appl. Phys. 53, 2240 (1982)
74. T. Tarnóczi et al., IEEE Trans. Magn. MAG-14, 1025
(1978)
75. M. Takahashi et al., Jap. J.Appl. Phys. 20, 1821
(1981)
76. H. Leitz, Z. Phys. B40, 65 (1980)
77. K.S. Tan et al., in Rapid Solidication Processes: Principles and Technologies II.
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R. Megrabian, B.H. Kear and M. Cohen, Claitor`s Publishing Div., USA 1980,
p. 112.
78. R. Roy and K.
Majumdar, J.Magn. Magn. Mat. 83, 83 (1981)
79. Y. Khan et al., Z.
Metallkde 72, 553 (1981)
80. A.L. Greer, Acta Met. 30,
171 (1982)
81. J.L. Finney, in
Diffraction Studies on Non-crystalline Substances, Ed.: I. Hargitai and W.J. Orville-Thomas,
Akadémiai Kiadó,
Budapest, 1981, p. 439.
82. G.S, Cargill III,
ugyanott p. 781.
83. D.C. Tian et al.,
Materials Science and Engineering 53,
179 (1982)
84. N. Asahi et al.,
Jap.J.Appl.Phys. 21, L116 (1982)
85. G.S. Cargill III. in
Atomic Energy Review Supplement No.1. (1981),
Topical
Issue: Application of Nuclear Techniques to the Studies of Amorphous Metals, p. 63.
86. F.E. Fujita, ugyanott,
p. 173.
87. U. Gonser, ugyanott, p. 203.
88. C. Janot, in
Electronic Structure of Crystal Defects and of Disordered Systems, Ed.: F.
Gautier et al.,
Les Editions de
Physics, France, 1981. p. 177.
89. G.Kh. Panova et al.,
Zs.E.T.F. 82, 548 (1982)
90. V.S. Pokatilov, Dokl.
Akad. Nauk. SSSR 257, 95 (1981)
91. Yu.V. Baldokhin et
al., Fiz. Met. Met. 53, 1027 (1982)
92. S.R.Nagel, Advances in
Chemical Physics 51, 227 (1982)
93. R. Harris and L.J.
Lewis, Phys. Rev. B25, 4997 (1982)
94. A.K. Bhatnagar et al.,
Phys. Rev. B28, 359 (1983)
95. P. Allia et al., J.
Appl. Phys. 53, 7750 (1982)
96. J. Orehotsky and C.
Rowland, J.Appl. Phys. 53, 7783 (1982)
97. E. Gurevitz and U.
Atzmony, Phys. Rev. B26, 6093 (1982)
98. P. Kovács et al., J.
Electrochem. Soc. 129, 695 (1982)
99. N.Hayashi and
I.Sakamoto, Phys. Lett. 88A, 299
(1982)
100. Y. Khan et al., Z. Metallkde 73, 624 (1982)
101. M.E. Lines et al., Sol. Stat. Commun. 45, 435 (1983)
102. L. Takács and C. Hargitai, J. Phys. F13, 183 (1983)
103. P. Allia et al., J.Magn. Magn. Mat. 31, 1527 (1983)
104. B.B. Prasadh et al., J.Appl. Phys. 54, 2019 (1983)
105. J. Weis and I. Cerven, Phys. Stat. Sol. a76, L17 (1983)
106. A.A. Bahgat and E.E. Shaisha, J. Non. Cryst. Sol. 56 , 243
(1983)
107. C. Cunat et al., J.Non-Cyst. Sol. 55, 45 (1983)
108. P. Duhaj and F. Hanic, Phys. Stat. Sol. a76, 467
109. J.L. Walter et al., Mat. Sci. Eng. 60, 31 (1983)
110. I. Ja. Dekhtiar et al., Exp. Iszl. zsidkih i amorfnüh metallov,
Szverdlovszk,
1983,
UNC AN SzSzSzR, 29.o.
111. G.Pompe et al., Acta Phys. Hung. 53, 401 (1983)
112. F.E. Luborsky, J.Appl. Phys. 45, 5732 (1983)
113. G. Pompe et al., Phys. Stat. Sol. b119, 579 (1983)
114. J. Weis et al., Phys. Stat. Sol. a79, K117 (1983)
115. V. Schubha et al., Solid St. Commun. 48, 687 (1983)
116. J. Cunat et al., J. de Physique 43, C9-1911 (1982)
117. U. Gonser and R. Preston, Topics in Appl Phys. 53, 93,
(1983)
118. J. Wong and H.H. Liebermann, Phys. Rev. B29, 651 (1983)
119. M.G. Scott, Amorphous Metallic Alloys,
Ed.:
F.E. Luborsky, Butterworths, 1983, p.144
120. É. Kisdi-Koszó et al., Acta Phys. Slovaca 31, 61
(1981)
121. E.E. Alp et al., J.Non-Cryst. Sol. 61-62, 871 (1984)
122. F.L. Cumbrera et al.,
J.Mat. Sci. Letters 2, 645 (1983)
123. J.C. Ford et al., J.Appl. Phys. 55, 2286 (1984)
124. L. Gránásy and A. Lovas, J.Magn. Magn. Mat. 41, 113 (1984)
125. P. Mrafko et al., J.Magn. Magn. Mat. 41, 135 (1984)
126. J. Wolny et al., J.Magn. Magn. Mat. 41, 191 (1984)
127. E. Stobiecki, J.Magn.
Magn. Mat. 41, 195 (l984)
128. K. Dehgan et al., J.Non-Cryst. Sol. 65, 87 (1984)
129. M.D. Baró et al., J.Non-Cryst. Sol. 69, 105 (1984)
130. J. Wolny et al.,
J.Non-Cryst. Sol. 65, 409 (1984)
131. G. Cocco et al., Solid
St. Commun. 51, 777 (1984)
132. C. Antonione et al., Z.Metallkde 75, 714 (1984)
133. A. Quiry. K. Rzepski amd Y. Calvayrac, Acta Met. 32, 1527
(1984)
134. Z.S.Wronski, A.H. Morrish and A.M. Stewart, Phys. Lett. A101,
294 (1984)
135. A.K. Bhatnagar and R. Jagannathan, Mössbauer studies of metallic
glasses: production, properties and applications.
Ed.: T.R. Anantharaman, Trans Tech. Publications
1984, p.8
136. S. Ranganathan and S. Banerjee, ugyanott 147. o.
137. J.A. Cusido, A. Isalgue and J. Tejada, Phys. Stat. Sol. (a) 87,
169 (1985)
138. R. Roy and A.K. Majumdar, Phys. Rev. B31, 2033 (1985)
139. T. Hamada and F.E. Fujita, Japan J.Appl. Phys. 24, 249
(1985)
140. J.M.Dubois and G.Le Caer, Cr. Acad. Sci. 301, 73 (1985)
141. K. Nagata and H. Ino, J.Japan Metal 49, 402 (1985)
142. J.Lendvai et al., Scrip.Metallurgica 19, 943 (1985)
143. J.A. Cusido and A. Isalque, Phys. Stat. Sol. (a) 90, 127
(1985)
144. S.D. Kaloshkin et al., Fiz. Met. Met. 59, 165 (1985)
145. J. Wolny and W. Zajac, Zeszyty Naukowe Akad. Gorniczo Hutniczej
im.
Stanislawa Stasica
Mat. Fyz. Chem. 60, 55 (1983)
146. S.R. Nagel, Excitations in Disordered Systems, Ed.: M.F. Thorpe,
Plenum Press, N.Y., 1982, p. 147.
147. D.Yu. Paderno, Poroskovaya Metallurgiya 1983 p. 84. No. 3.
148. H. Ino et al., Rapidly Quenched Metals, Eds.: S. Steeb and H.
Warlimont, Elsevier, 1985, p. 263.
149. E.E. Alp, ibid p. 267.
150. P. Duhaj et al., ibid p. 271.
151. É. Kisdi-Koszó et al., ibid p. 299.
152. F. Foquet et al., ibid p. 307.
153. Gy. Faigel and E. Sváb, ibid p. 487.
154. M. Tegze et al., ibid p. 1031.
155. A.K. Bhatnagar, Hyperfine Interactions 24-26, 637 (1985)
156. S.D. Kaloskin, Dokl. Akad. Nauk. SSSR 284, 1120 (1985)
157. M. Fujinami and Y. Ujihira, J.Non-Cryst. Sol. 69, 361
(1985)
158. E. Sváb et al., J. de Physique 46, C8-267 (1985)
159. M. Fähnle and G. Herzer, Solid State
Commun. 57, 449 (1986)
160. L.Shi et al., Hyp. Int. 27,
419 (1986)
161. Hirotsu, Y., J.Appl. Phys. 59, 3081 (1986)
162. Nakajima, T., J. Japan Met. 51, 263 (1987)
163. Efimov, Z.V., Russ. Met. R4, 167 (1986)
164. Kaloshkin, S.D., Fiz. Metal M. 63, 202 (1987)
165. Khokha, L.G., Fiz. Tverd. T. 28, 3739 (1986)
166. Miyazaki, T., J.M.M.M. 60, 204 (1986)
167. Fujinami, M., Buuseki Kog. 35, 741 (1986)
168. Lovas, A., J.Mater. Sci. 22, 1535 (1989)
169. Drago, V., Sol. St. Commun. 64, 153 (1987)
170. Kajcsos, Zs., Phys. St. S.- a102, 67 (1987)
171. N. Hayashi, J. Phys. Cond. Mat. 1, 3849 (1989)
172. Pelletier, J.M., Mem. Rev. Met. 83, 273 (1986)
173. Jen, S.U., J.Magn. Magn. Mat. 71, 165 (1988)
174. Stadnik, Z.N., J.Non-Cryst. 99, 233 (1988)
175. Vlasak, G., J.Non-Cryst. 99, 65 (1988)
176. Kaloshkin, V. et al., Raszplavi 1, (1987)
177. P.H. Gaskell, Amorph. Met., Ed.: H. Matyja and P.G. Zielinski,
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178. S. Budurov et al., J.Mat. Sci. 21, 2553 (1986)
179. L.A. Ryabtsev et al., Russ. Met. R4, 167 (1986)
180. K.H.J. Buschow et al., J.Less-Common Met. 125, (1986)
181. P.H. Gaskell, in: Metallic and Semiconducting Glasses, Ed.: A.K.
Bhatnagar,
Trans. Tech. Publ.
1986, Singapore, p. 71.
182. Nakajima, T. et al., J.Mater. Sci. 23, 1279 (1988)
183. M.X. Quan and B.C. Giessen, Mat. Res. Soc. Symp. Proc. 58, 241 (1986)
184. S. Nikolov et al., Sol. St. Commun. 66, 71 (1988)
185. Z.H. Lai et al., Scripta Met. 23, 305 (1989)
186. Si-Yun Bi et al., J.de Phys. 49, C8-1365 (1989)
187. Shamim, A., J.Mat. Sci.L. 7, 1313 (1988)
188. Baer, S. et al., Physica B154, 8 (1988)
189. Kasimovski, A.A., Metal. Sci. H. 30, 334 (1988)
190. Hayashi, N., Nucl. Inst. B39, 587 (1989)
191. Djega-Maradissou C., Hyper. Inter. 45, 343 (1989)
192. Lovas A. et al., Z. Phys. Chem. N. 157, 3711 (1988)
193. Din, S.U. et al., J.Mat. Sci. L. 8, 367 (1989)
194. Nemoshkalenko, V.V. et al., Amorfnüe Metallicseszkije Szplavi,
Kiev, Naukova Dumka, 1987.
195. A. Nazareth, Phys. Rev. B40, 5441 (1989)
196. I.A. Tomilin et al., Fiz. Metal M. 68, 518 (1989)
197. Fujinami, M., Japan J.Appl. Phys. 29, L477 (1989)
198. S.U. Jen, J. Phys. Chem. Sol. 51, 431 (1990)
199. S. Linderoth, J.Appl. Phys. 67, 4472 (1990)
200. M.A. Aysawi et al., J.Non-Cryst. Sol. 122, 146 (1990)
201. M.T. Clavaguera-Mova et al., Coll. de Physique 51, C4-49
(1990)
202. G. Zhang et al., Hyperfine Int. 60, 705 (1990)
203. Amini, M.M., Chem. Mater. 2, 432 (1990)
204. Chardalas M. et al., Physica B167, 71 (1990)
205. S. Linderoth et al., J.Appl. Phys. 69, 5124 (1991)
206. A.Szász, J.Non-Cryst. Sol. 127, 121 (1991)
207. A. Lovas et al., Mat. Sci. Eng. A133, 248 (1991)
208. Chao, Y.S., et al., Mat. Sci. Eng. A134, 1000 (1991)
209. S. Linderoth et al., J.Appl. Phys. 69, 5256 (1991)
210. A. Szász et al., J.Non-Cryst. Sol. 130, 211 (1991)
211. G.L.Zhang et al, Chin. Phys. Lett. 8, 86 (1991)
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