SPICE HOMEPAGE
SPICE logo

Publications by Jozef Kristek

Moczo, P., Kristek, J., Galis, M., Pazak, P., Balazovjech, M. (2007),
The Finite-Difference and Finite-Element Modeling of Seismic Wave Propagation and Earthquake Motion,
Acta Physica Slovaca, 57 (2), 177-406.

Bonnefoy-Claudet, S., Cornou, C., Bard, P.-Y., Cotton, F., Moczo, P., Kristek, J., Faeh, D. (2006),
H/V ratio: a tool for site effects evaluation. Results from 1D noise simulations.,
Geophys. J. Int., 167, 827-837.

Kristek, J., Moczo, P. (2006),
On the accuracy of the finite-difference schemes: the 1D elastic problem,
Bull. Seism. Soc. Am., 96 (6), 2398-2414, doi:10.1785/0120060031.

Kristekova, M., Kristek, J., Moczo, P., Day, S. M. (2006),
Misfit Criteria for Quantitative Comparison of Seismograms,
Bull. Seism. Soc. Am. , 96 (5), 1836-1850, doi:10.1785/0120060012.

Moczo P., Kristek J. (2005),
On the Rheological Models Used for Time-domain Methods of Seismic Wave Propagation,
Geophysica Research Letters, 32 (1), L01306, doi:10.1029/2004GL021598.

Moczo, P., Kristek, J., Halada, L. (2004),
The Finite-Difference Method for Seismologists. An Introduction.,
158 pp., Comenius University, Bratislava , ISSN: 80-223-2000-5.

Moczo, P., Gális, M., Kristek, J., Bard, P.-Y., Bouchon, M. (2004),
Hybrid finite-element – finite-difference modeling of seismic motion in sedimentary valleys including a dynamic source model,
Abstracts, pp. 87, European Seismological Commission - XXIX General Assembly, University & GFZ Potsdam, 12-17 September.

Moczo, P., Gális, M., Kristek, J. (2004),
3D hybrid finite-element–finite-difference computation of seismic motion including rupture propagation modeling,
Geophys. Res. Abstracts, 6, European Geosciences Union (CD-ROM), Abstract EGU04-A-03347, ISSN 1029-7006, EGU General Assembly 2004, Nice, France.

Moczo, P., Kristek, J. (2004),
Rheological Models in the Time-Domain Modeling of Seismic Motion,
EoS Trans. AGU, Fall Meet. Suppl., 85 (47), S13D-1097.

Kristek, J., Moczo, P., Gális, M., Bard, P.-Y. (2004),
3D Hybrid Numerical Modeling of Seismic Motion in Sedimentary Valleys due to a Dynamic Source Model,
EOS Trans. AGU Fall Meet. Suppl., 85 (47), S32B-07.