Purpose and Goals
The generation and diagnostics of extreme states of matter as appearing in the interior of planets, brown dwarfs and stars is one of the key scientific challenges in a number of scientific fields. These include:
- Generation of such conditions at FLASH and the future free electron
laser facility (European XFEL).
- Generation of higher pressures in static experiments both in the
laboratory and at synchrotron facilities (PETRA III).
- Development of new diagnostic tools.
- Predictions of high pressure and temperature properties of materials
from ab-initio methods.
- Application of such results to the study of interior of planetary and
To bring together researchers from these different fields in the physical sciences a workshop series has been established by DESY, XFEL GmbH, DLR Berlin, the University of Rostock and Bayerisches Goinstitut to discuss related topics and problems. Earlier workshops were held at DESY Hamburg (2012), DLR Berlin (2013), University of Rostock (2014) and the Bayerisches Geoinstitut at the University of Bayreuth.
The aim of the upcoming workshop is to continue the discussion of scientific questions with relevance for extreme planetary environments in terms of high pressure (HP) and high temperature (HT). The conditions prevalent in the deep interiors and atmospheric envelopes of solar system planets, their satellites as well as massive solid and gas giant extrasolar planets, respectively, and are not fully accessible by conventional experimental and theoretical methods. New and enabling techniques to be used in the HP/HT regime are based on the combination of intense pulsed x-ray sources with pulsed sample excitation, in particular but not exclusively related to high energy optical lasers. Simultaneously, ab initio simulations for matter under extreme conditions provide a more and more predictive data set for planetary interiors in this HP/HT regime.
The following topics will be part of the workshop:
- Evolution and structure of giant planet interiors
- Interior structure, bulk composition, and internal geodynamics of
- Deep volatile cycles and exchange processes between geochemical reservoirs
- Physics and chemistry of impact processes
- Equations of state, petrology, and geochemistry of planetary materials
- Melting relations and phase transformations of materials at extreme states
- Dynamic and ultrafast processes in strongly excited solids or similar,
- Compression experiments using high-power optical and free electron lasers
- Laboratory experiments using multi-anvil and diamond-anvil cells
- Ab-initio simulation studies for matter under extreme conditions
Abstracts and contributions are welcome to the above subject areas that represent an initial outline and are open to further suggestions. The workshop will include a mix of solicited, contributed and poster presentations. This meeting is also intended to inspire new projects and offer a discussion space to foster collaboration between workshop participants from the various research fields.
Time and Location
The workshop will start on September 14 (noon) and end on September 16 (noon).
It will be held at Deutsches Elektronen Synchrotron DESY.
Deadline for registration and abstract submission: September 01, 2016.
There is no registration fee.
- Tilo Döppner, Lawrence Livermore National Laboratory
- John Eggert, Lawrence Livermore National Laboratory
- William Evans, Lawrence Livermore National Laboratory
- Hanns-Peter Liermann, DESY Hamburg
- Hauke Marquardt, Bayerisches Geoinstitut, University of Bayreuth
- Stephane Mazevet, Observatoire de Paris
- Heike Rauer, DLR Berlin
- Vanina Recoules, CEA Arpajon
- Ronald Redmer, University of Rostock
- Frank Sohl, DLR Berlin
- Gerd Steinle-Neumann, Bayerisches Geoinstitut, University of Bayreuth
- Thomas Tschentscher, European XFEL Hamburg
- Johannes Wicht, Max-Planck-Institute for Solar System Research
Local Organizing Committee
- H. P. Liermann (DESY)
- U. Zastrau (XFEL)
For further information, please contact the local workshop organizer: firstname.lastname@example.org
Starts Sep 14, 2016 12:00
Ends Sep 16, 2016 12:00