M. R. Riedel, R. Däßler, 1990.
Pressure-induced nucleation and growth processes
in the diamond anvil cell.
J. Crystal Growth 106, 695 - 704.
Arbeit 2
R. Däßler, M. R. Riedel, 1991.
First evidence of spinodal decomposition in the
diamond anvil cell.
phys. stat. sol (b) 165, K1 - K4.
Arbeit 3
S. Franck, M. R. Riedel, 1991.
The evolution of a global magma ocean with olivine
flotation.
Earth, Moon, and Planets 54, 59 - 65.
Arbeit 4
M. R. Riedel, R. Däßler, 1992.
Equilibrium microstructure formation during
pressure-induced nucleation and growth.
In: Recent Trends in High Pressure
Research, A. K. Singh (ed.), Oxford & IBH Publ.,
New Delhi, 304 - 309.
Arbeit 5
R. Däßler, M. R. Riedel, 1992.
Microstructure Investigations of Nucleation and
Growth Processes in the Diamond Anvil Cell.
High Press. Res. 9,
120 - 123.
Arbeit 6
M. R. Riedel, 1994.
Das Paradigma der Selbstorganisation.
In: Weltbild - Weltordnung: Perspektiven für eine zerbrechliche und endliche
Erde,
W. Hofkirchner (ed.), agenda Verlag, Münster 1994, 51-66.
Arbeit 7
M. R. Riedel, C. Janssen, 1995.
A new shear apparatus for experimental deformation
of rocks under the microscope.
J. Struct. Geol. 17, 455 - 457.
Arbeit 8
M. R. Riedel, S. Karato, 1996.
Microstructural development during nucleation and growth.
Geophys. J. Int. 125, 397 - 414.
Arbeit 9
R. Däßler, D. A. Yuen, S. Karato, M. R. Riedel, 1996.
Two-dimensional thermo-kinetic model for the olivine-spinel
phase transition in subducting slabs.
Phys. Earth Planet. Inter. 94, 217 - 239.
Arbeit 10
M. R. Riedel, S. Karato, 1996.
Grain-size Evolution in Subducted Oceanic Lithosphere Associated with the
Olivine-Spinel Transformation and Its Effects on Rheology.
Research Report of the Minnesota Supercomputer Institute, 20 pp. + 12 figs.,
submitted to Earth and Planetary Science Letters.