The microscopic origin of ferromagnetic ordering as well as the existe
nce of hysteresis in TDAE-C-60 are contradictorily discussed in the li
terature. At 1.7 K the zero-field magnetization, M(0), extrapolated fr
om the demagnetization curve of a TDAE-C-60 powder, is only a small fr
action of the saturation magnetization M-s approximate to 1.2 A m(2)/k
g (or emu/g) measured at a field of 4 MA/m. The small value of M(0)IMs
may be due to (i) a large amount of small superparamagnetic particles
and/or (ii) alignment of a canted magnetic structure at high field. A
fter leaving TDAE-C-60 powder in a sealed quartz tube with He for eigh
t weeks this ratio increased from about 8% to 65% but M-s remained unc
hanged. This observation points to agglomeration of superparamagnetic
clusters increasing the contribution to the ferromagnetic behavior. Ty
pical extrinsic magnetic quantities describing a ferromagnetic materia
l, such as remanence M-r, coercivity H-j(c) and viscosity S, have also
been measured. For temperatures 10, 5, and 1.7 K typical values of M-
r and H-j(c) are 30, 90, 200 mu T, and 50, 110, and 200 A/m, respectiv
ely. The values of coercivity have the order of magnitude of those of
low-carbon steel (at room temperature). After leaving a pressed TDAE-C
-60 sample in a sealed quartz tube with He for six weeks M-r increased
and H-j(c) decreased, both by about 30%. The samples show a logarithm
ic time-dependence of magnetization Delta M=-S 1n(1+t/t(0)) with large
values of the viscosity S. In the remanent state (at H=0) the measure
d values of S/M-r are 0.025, 0.021, and 0.019 for T = 10, 5, and 2.5 K
, respectively. (C) 1997 American Institute of Physics.