References

1

H.W. Kroto et al, Nature 318, 162 (1985).

2

R.F. Curl, RMP 69, 691 (1997);
H.W. Kroto, RMP 69, 703 (1997);
R.E. Smalley, RMP 69, 723 (1997).

3

W. Krätchmer et al, Nature 347, 354 (1990).

4

M.S. Dresselhaus, G. Dresselhaus & P.C. Ecklund, Science of Fullerenes and Carbon Nanotubes, (Academic, San Diego, 1996).

5

R.C. Haddon, Acc. Chem. Res. 25, 127 (1992).

6

M.P. Gelfand, Superconductivity Review 1, 103 (1994).

7

O. Gunnarsson, RMP 69, 575 (1997).

8

D.S. Bethune et al, Nature 366, 123 (1993).

9

M. Saunders et al, J. Am. Chem. Soc. 116, 2193 (1994).

10

T. Almeida Murphy et al, PRL 77, 1075 (1996).

11

E.J. Ansaldo et al, Nature 353, 121 (1991).

12

A. Oshiyama et al in The Fullerenes, Kroto, Fischer & Cox eds. (Pergamon, Oxford, 1993).

13

J.H. Weaver in The Fullerenes, Kroto, Fischer & Cox eds. (Pergamon, Oxford, 1993).

14

R.F. Kiefl et al, PRL 69, 2005 (1992).

15

M.J. Rosseinsky in Physics and Chemistry of the Fullerenes, K. Prassides ed. (Kluwer, Amsterdam?, 1994).

16

D.C. Mattis, The Theory of Magnetism, (Springer, Berlin, 1981).

17

M. Knupfer & J. Fink, PRL, forthcoming (1997).

18

S. Kagoshima et al, One-Dimensional Conductors (Springer, Berlin, 1988);

19

A.W. Overhauser, PRL 4, 462 (1960).

20

N.W. Ashcroft & N.D. Mermin, Solid State Physics (Saunders College, Philadelphia, 1976).

21

E. Fawcett, RMP 60, 209 (1988).

22

E. Fawcett, RMP 66, 25 (1994).

23

L.P. Le et al, PRB 48, 7284 (1993).

24

C. Kittel, Introduction to Solid State Physics, 6^th Edition (Wiley, New York, 1986).

25

P. Breusch, Phonons: Theory and Experiments I, (Springer, Berlin, 1982).

26

P.A. Heiney in The Fullerenes, Kroto, Fischer & Cox eds. (Pergamon, Oxford, 1993).

27

A.M. Rao et al, Science 259, 955 (1993).

28

C. Goze et al, PRB 54, R3676 (1996).

29

R.C. Haddon, et al, Nature 350, 320 (1991).

30

A.F. Hebard, et al, Nature 350, 600 (1991).

31

A.P. Ramirez, Superconductivity Review 1, 1 (1994).

32

K. Holczer & R.L. Whetten in The Fullerenes, Kroto, Fischer & Cox eds. (Pergamon, Oxford, 1993).

33

K. Tanigaki & O. Zhou, J. Phys. I (France) 6, 2159 (1996).

34

C.H. Pennington & V.A. Stenger, RMP, 68, 855 (1996).

35

G. Zimmer, et al, Appl. Magn. Reson. 11, 263 (1996).

36

V. Buntar & H.W. Weber, Supercond Sci. Technol. 9, 599 (1996).

37

M. Schlüter et al in The Fullerenes, Kroto, Fischer & Cox eds. (Pergamon, Oxford, 1993).

38

R.E. Walstedt et al, Nature 362, 611 (1993).

39

O. Zhou et al, PRB 52, 483 (1995).

40

J.E. Fischer, private communication (1995).

41

T.T.M. Palstra et al, Solid State Comm. 93, 327 (1995).

42

J. Bardeen, L.N. Cooper & J.R. Schrieffer, Phys. Rev. 108, 1175 (1957).

43

K. Prassides et al, Science 263, 950 (1994).

44

K. Tanigaki et al, PRB 49, 12307 (1994).

45

K. Prassides et al, J. Am. Chem. Soc. 119, 834 (1997);
L. Christofolini et al, Chem. Commun., 375 (1997).

46

Q. Zhu, PRB 52, R723 (1995).

47

J.E. Schirber, Physica C 260, 173 (1996).

48

E.J. Mele & S.C. Erwin, PRB 50, 2150 (1994).

49

D.J. Scalapino in Superconductivity, Vol. 1, ed. R.D. Parks (Dekker, New York, 1969).

50

G.M. Eliashberg, Sov. Phys. JETP 11, 696 (1960).

51

W.L. McMillan & J.M. Rowell in Superconductivity, Vol. 1, ed. R.D. Parks (Dekker, New York, 1969).

52

J.P. Carbotte, RMP 62, 1027 (1990).

53

P. Morel & P.W. Anderson, Phys. Rev. 125, 1263 (1962).

54

C.F. Richardson & N.W. Ashcroft, PRB 55, 15310 (1997).

55

S. Chakravarty & S. Kivelson, Europhys. Lett. 16, 751 (1991).

56

W. Victoroff & M. Héritier, J. Phys. I (France) 6, 2175 (1996).

57

Q. Zhu et al, PRB 47 13948 (1993).

58

R. Tycko et al, PRB 48, 9097 (1993).

59

P.W. Stephens et al, Nature 370, 636 (1994).

60

K.-F. Thier et al, PRB 53, R496 (1996);
H. Alloul et al, PRL 76, 2922.

61

P. Petit et al, PRB 51, 11924 (1995);
M. Kosaka et al, PRB 51, 12018 (1995);
G. Oszlányi et al, PRB 51, 12228 (1995).

62

M.C. Martin et al, PRB 49, 10818 (1994).

63

F. Bommeli et al, PRB 51, 14791 (1995).

64

V. Brouet et al, PRL 76, 3638 (1996).

65

O. Chauvet et al, PRL 72, 2721 (1994).

66

J.E. Fischer, private communication (1997).

67

J. Kanamori in Magnetism Vol. 1, Rado & Suhl eds. (Academic, New York, 1963);
R.M. White, Quantum Theory of Magnetism, (Springer, Berlin, 1983).

68

A. Jánossy et al, PRL, forthcoming (1997).

69

S.C. Erwin et al, PRB 51, 7345 (1995).

70

P.R. Surján et al, Solid State Comm. 92, 407 (1993);
K. Tanaka et al,Solid State Comm. 93, 163 (1995);
S. Stafström et al, Europhys. Lett. 30, 295 (1995).

71

P. Auban-Senzier et al, J. Phys. I (France) 6, 2181 (1996).

72

E.J. Mele et al, PRB 52, 12493 (1995).

73

A. Schenck, Muon Spin Rotation Spectroscopy, (Hilger, Bristol, 1985).

74

S.F.J. Cox, J. Phys. C 20, 3187 (1987).

75

J.H. Brewer, Encyclopedia of Applied Physics, 11, 23 (1994).

76

G. Schatz & A. Weidinger, Nuclear Condensed Matter Physics, (Wiley, New York, 1996).

77

T.M. Riseman, Ph.D. Thesis, University of British Columbia, 1993, unpublished.

78

K.H. Chow, Ph.D. Thesis, University of British Columbia, 1994, unpublished.

79

G.M. Luke, Ph.D. Thesis, University of British Columbia, 1988, unpublished.

80

D.M. Garner, Ph.D. Thesis, University of British Columbia, 1979, unpublished.

81

R.L. Garwin, L.M. Ledermann & M. Weinrich, Phys. Rev. 105, 1415 (1957).

82

L.M. Ledermann with D. Teresi, The God Particle: if the universe is the answer, what is the question?, (Houghton Mifflin, Boston, 1993).

83

R.F. Kiefl et al, PRL 70, 3987 (1993).

84

J.W. Schneider et al, PRL 71, 557 (1993).

85

S. Pekker et al, Science 265, 1077 (1994).

86

O.V. Lounasmaa, Experimental Principles and Methods Below 1K, (Academic, New York, 1974).

87

R.H. Heffner et al, Hyp. Int. 106, 271 (1997).

88

N.B. Hannay et al, PRL 14, 225 (1965).

89

T. Yildirim et al, PRL 77, 167 (1996).

90

S. Chu & M.E. McHenry, PRB 55, 11722 (1997).

91

Y. Yoshinari et al, PRB 54, 6155 (1996).

92

B.D. Patterson, RMP 60, 69 (1988).

93

J. Korringa, Physica 16, 601 (1950).

94

C.P. Slichter, Principles of Magnetic Resonance, (Springer, Berlin, 1990).

95

L.C. Hebel & C.P. Slichter PR 113, 1504 (1959).

96

J.A. Chakhalian et al, Hyp. Int. 106, 245 (1997).

97

T.M.S. Johnstone et al, Hyp. Int. 106, 71 (1997).

98

Y. Maniwa et al, J. Phys. Soc. Jpn., 63, 1139 (1994).

99

Y.N. Molin et al, Spin Exchange, (Springer,Berlin,1980).

100

V.G. Nosov & I.G. Yakovleva, Sov. Phys. JETP 16, 1236 (1963).
M. Senba, J. Phys. B 24, 3531 (1991).

101

K.H. Chow et al, PRB 50, 8918 (1994).

102

R.F. Kiefl et al, PRL 68, 1347 & 2708 (1992).

103

M. Tinkham, Introduction to Superconductivity, (McGraw-Hill, New York, 1996).

104

D.E. MacLaughlin, Solid State Physics 31, 1, (1976).

105

P.J. Hirchfeld & N. Goldenfeld, PRB 48, 4219 (1993).

106

J. Halbritter, Z. Phys. 243, 201 (1971).

107

B. Muhlschlegel, Z. Phys. 155, 313 (1959).

108

G. Preosti et al, PRB 50, 1259 (1994).
R. Fehrenbacher & M.R. Norman, PRB 50, 3495 (1994).

109

H. Monien & D. Pines, PRB 41, 6297 (1990).

110

J. Annett, et al in The Physical Properties of High Temperature Superconductors, Vol. 2, D.M. Ginsberg ed. (World Scientific,Singapore,1990), p571.

111

C.H. Pennington & C.P.Slichter in The Physical Properties of High Temperature Superconductors, Vol. 2, D.M. Ginsberg ed. (World Scientific,Singapore,1990), p269.

112

J.A. Martindale et al, PRL 68, 702 (1992).

113

K. Asayama et al, J. Mag. Mag. Mater. 76-77, 449 (1988).

114

D.E. MacLaughlin et al, PRL 53, 1833 (1984).

115

M. Takigawa et al, J. Phys. Soc. Jpn. 56, 873 (1987).

116

L.C. Hebel PR 116, 79 (1959).

117

R.C. Dynes et al, PRL 41, 1509 (1978).

118

P.B. Allen & D. Rainer, Nature 349, 396 (1991).

119

D.J. Scalapino in Superconductivity, Vol. 1, ed. R.D. Parks (Dekker, New York, 1969).

120

J.R. Schrieffer et al, PRL 10, 336 (1963).

121

S.B. Kaplan et al, PRB 14, 4854 (1976).

122

M. Fibich, PRL 14, 561 & 621 (1965).

123

D.J. Scalapino & T.M. Wu, PRL 17, 315 (1966).

124

B. Statt, PRB 42, 6805 (1990).

125

R. Akis et al, Physica C 176, 485 (1991).

126

H.-Y. Choi & E.J. Mele, PRB 52, 7549 (1995).

127

A. A. Abrikosov & L.P. Gor'kov, Sov. Phys JETP 12, 1243 (1961).

128

A. Griffin & V. Ambegaokar in Low Temperature Physics, LT9A, J.G. Daunt et al eds., (Plenum, New York, 1965).

129

Y. Masuda & M. Hashimoto, J. Phys. Soc. Jpn. 31, 1661 (1971).

130

K. Kumagai et al in Ternary Superconductors, Shenoy, Dunlap & Fradin eds., (Elsevier, Amsterdam, 1981), p. 185.

131

Y. Iwasa et al, PRB 53, R8836 (1996).

132

C.M. Brown et al in Recent Advances in the Chemistry and Physics of Fullerenes, Vol. 4, K.M. Kadish & R.S. Ruoff eds., in press (1997).

133

K. Prassides et al, Physica C, in press (1997).

134

A.L. Fetter and P.C. Hohenberg in Superconductivity, Vol. 2, ed. R.D. Parks (Dekker, New York, 1969).

135

Daniel S. Fisher et al, Phys. Rev. B 43, 130 (1991).

136

P.G. deGennes, Superconductivity of Metals and Alloys, (W.A. Benjamin, New York, 1966).

137

U. Brandt et al, Z. Phys. 201, 209 (1967).

138

U. Brandt, Phys. Lett. 27A, 645 (1968).

139

K. Maki in Superconductivity, Vol. 2, ed. R.D. Parks (Dekker, New York, 1969).

140

V. Ambegaokar & A. Griffin, Phys. Rev. 137, A1151 (1965).

141

A. Wasserman & M. Springford, Ann. Phys. 45, 471 (1996).
M. Springford & A. Wasserman, J. Low Temp. Phys. 105, 273 (1996).

142

V. Ambegaokar in Superconductivity, Vol. 1, ed. R.D. Parks (Dekker, New York, 1969).

143

C. Caroli et al, Phys. Lett. 9, 307 (1964).

144

M. Cyrot, Phys. Kondens. Mat. 3, 374 (1965).

145

F. Gygi & M. Schluter, Phys. Rev. B 43, 7609 (1991).

146

D. Rainer et al, PRB 54, 10094 (1996).

147

R.J. Watts-Tobin et al, J. Low Temp. Phys. 17, 71 (1974).

148

W. Pesch & L. Kramer, J. Low Temp. Phys. 15, 367 (1974);
L. Kramer & W. Pesch, Z. Phys. 269, 59 (1974).

149

B. Pöttinger & U. Klein, PRL 70, 2806 (1993).

150

M. Ichioka et al, Phys. Rev. B 55, 6565 (1997).

151

B.S. Chandrasekhar, App. Phys. Lett. 1, 7 (1962).
A.M. Clogston, Phys. Rev. Lett. 9, 266 (1962).

152

D. Saint-James, E.J. Thomas, and G. Sarma, Type II Superconductivity, (Pergamon, Oxford, 1969).

153

N.R. Werthamer et al, Phys. Rev. 147, 295 (1966).

154

M. Cyrot, J. de Phys. (Paris), 27, 283 (1966).

155

Y. Masuda & N. Okubo, J. Phys. Soc. Jpn 26, 309 (1969).

156

D. Eppel et al, Z. Phys. 197, 46 (1966).
W. Pesch, Phys. Lett. 28A, 71 (1968).

157

B.G. Silbernagel et al, Phys. Rev. Lett 17, 384 (1966).

158

W. Fite II & A.G. Redfield, Phys. Rev. 162, 358 (1967).

159

I.B. Goldberg & M. Weger, J. Phys. Soc. Jpn. 24, 1279 (1968).

160

L. Xing & Y-C. Chang, Phys. Rev. Lett. 73, 488 (1994).

161

E. Ehrenfreund et al, Sol. St. Comm. 7, 1333 (1969).
L.N. Bulaevskii et al, Phys. Rev. Lett. 71, 1891 (1993).
C.H. Recchia et al, Phys. Rev. Lett. 78, 3543, (1997).

162

A.Z. Genack & A.G. Redfield, Phys. Rev. Lett. 31, 1204 (1973).

163

Orsay Group on Superconductivity, Colloque Ampere XIV, 320, (1967).

164

F.Y. Fradin in Nuclear and Electron Resonance Spectroscopies Applied to Materials Science, Kaufman and Shenoy eds., (Elsevier, Amsterdam, 1981).

165

R. Kadono et al, PRL 79, 107 (1997).

166

T.L. Duty et al, Hyp. Int. 86, 789 (1994).

167

S.K. Estreicher et al, Chem. Phys. Lett. 196, 311 (1992);
P.W. Percival & S. Wlodek, Chem. Phys. Lett. 196, 317 (1992).

168

W.A. MacFarlane, PRB 52, R6995 (1995).

169

E.J. Ansaldo et al, Nature 353, 129 (1991).

170

E. Holzschuh, Helv. Phys. Acta 54, 552 (1981).

171

E.J. Mele & S.C Erwin, PRB 50, 2150 (1994).

172

J. Mizuki et al, PRB 50, 3466 (1994).

173

V. Jaccarino in Proceeding of the International School of Physics ``Enrico Fermi'', XXXVII, W. Marshall ed., (Academic, New York, 1967), p. 365.

174

V.A. Stenger et al, PRL 74, 1649 (1995).

175

Y. Maniwa et al, PRB 52, R7054 (1995).

176

R. Tycko et al, PRL 68, 1912 (1992).

177

B.S. Shastry & E. Abrahams, PRL 72, 1933 (1994).

178

Y.J. Uemura et al, Nature 352, 605 (1991).

179

Y.J. Uemura et al, Physica C 235-240, 2501 (1994).

180

W.A. MacFarlane et al, Hyp. Int. 86, 467 (1994).

181

E.H. Brandt, PRB 37, 2349 (1988).

182

B. Pumpin et al, PRB 42, 8019 (1990).

183

T.M. Riseman et al, PRB 52, 10569 (1995).

184

J.E. Sonier, M.Sc. Thesis, University of British Columbia (1994), Unpublished.

185

J.R. Clem, J. Low Temp. Phys. 18, 427 (1975).

186

Z. Hao et al, PRB 43, 2844 (1991).

187

A. Yaouanc et al, PRB 55, 11107 (1997).

188

J.E. Sonier et al, PRL 72, 744 (1994).

189

J.E. Sonier et al, PRL, forthcoming;
preprint: cond-mat/9708115.

190

J.E. Sonier et al, PRL 79, 1742 (1997).

191

G. Zimmer et al, PRB 54, R3768 (1996).

192

L.Degiorgi et al, PRL 69, 2987 (1992).

193

J.E. Sonier et al, PRB 55, 11789 (1997).

194

C. Christides et al, PRB 46, 12088 (1992).

195

D. Koller et al, PRL 77, 4082 (1996).

196

Z. Zhang et al, Science 254, 1619 (1991).

197

P. Jess et al, Physica C 235-240, 2499 (1994).

198

J. Ostrick, to be published.

199

S.K. Watson et al, PRB 55, 3866 (1997).

200

A. Yazdani et al, Science 275, (1997).

201

R.S. Hayano et al, PRB 20, 850 (1979).

202

Y.J. Uemura et al, PRB 52, R6991 (1995).

203

M. Larkin et al, Hyp. Int. 104, 325 (1997).

204

L. Christofolini et al, J. Phys.: Condens. Matter 7 L567 (1995).

205

C.M. Brown in The Annual Report of the Paul Scherrer Institute, Ann. I, p39 (1996).

206

A. Lappas et al, Science 267 1799 (1995).

207

J.E. Fischer & P.W. Stephens, private communication (1997).

208

V. Brouet, private communication (1997).