Inhaltsbereich
Dr. Luigi Passarelli
Helmholtz Centre PotsdamGFZ German Research Centre for Geosciences
Section 2.1, Earthquake Risk and Early Warning
Helmholtzstraße 7, H7 106
D-14467 Potsdam
Phone: null
Fax: null
Mail: luigi.passarelli@gfz-potsdam.de
and
Telegrafenberg D-14473 Potsdam
Scientific interests:
Statistical volcanology for eruption forecasting, modelling spatio-temporal distributions for eruption activity, Bayesian hierarchical modelling, statistical seismology, volcanic and induced seismicity,
Physics of volcanic systems and of the seismic source.
Projects:
- Participant to INGV-DPC project UNREST
- Post-Doc position within CCMP-POMPEI: Physics of magma propagation and emplacement, a multi-methodological investigation
Career:
| 2007-2010: | PhD in Geophysics, University of Bologna, Italy |
| 2004-2006: | MSc in Physics, University of Bologna, Italy |
| 2000-2004: | BSc in Physics, University of Bologna, Italy |
Experience:
| Jan 2011 to Jun 2012 | Post-Doc, University of Hamburg, Germany |
| Jun 2009 to Sept 2009 | Visiting Scholar, University of California Santa Cruz, USA |
| Sept 2008 to Jan 2009 | Visiting Scholar, University of California Santa Cruz, USA |
Editorial Experience:
reviewer of GJI, Journal of Seismology, Natural Hazards
Awards:
2008: Marco Polo Fellowship, University of Bologna
Selected publications:
Passarelli, L. , Maccaferri, F., Rivalta, E., and Dahm, T., Abebe Boku, E..,2012 A probabilistic
approach for the classification of earthquakes as triggered or not triggered, DOI: 10.1007/s10950-012-
9289-4. Online first.
Passarelli, L., and Brodsky, E. E., 2012 The Correlation Between Run-Up and Repose Times
of Volcanic Eruptions, Geophys J Int 188, 1025-1045, DOI: 10.1111/j.1365-246X.2011.05298.x
Passarelli, L., Sanso, B., Sandri, L., Marzocchi, W., 2010. Testing forecasts of a new Bayesian time-predictable model of eruption occurrence. J. Volcanol. Geotherm. Res., 198, 57-75, DOI:
10.1016/j.jvolgeores.2010.08.011.
Passarelli, L., Sandri, L., Bonazzi, A., Marzocchi, W. 2010. Bayesian Hierarchical Time Predictable Model for Eruption Occurrence: an Application to Kilauea Volcano, Geophys. J. Int., 181,1525-1538, DOI:10.1111/j.1365-246X.2010.04582.x