PostDoc in energetic materials (Paris,France)

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Jordan
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Joined: Tue May 07, 2013 9:47 am

PostDoc in energetic materials (Paris,France)

Post by Jordan » Tue Oct 03, 2017 2:11 pm

Study of energetic materials by first-principles methods. Theoretical development and applications.

A postdoctoral position is available in France, at the "Commissariat à l'Énergie Atomique" (CEA,
Bruyères le Châtel, south of Paris, France).

We are interested here in the properties of energetic materials based on molecular solids. The
goal is to determine their structural and thermodynamic properties (equation of state) using
first-principles methods, based on electronic properties, such as Density-Functional Theory (DFT).
In this type of materials, long range van der Waals interactions play a preponderant role. As they are
not correctly modeled by the Standard Density-Functional Theory, it is necessary to go beyond the
usual approximations [1].
Moreover, the materials of interest are molecular solids based on organic molecules. Therefore they
contain a large number of hydrogen atoms whose nuclei are known to have a quantum behavior (zero
point energy).

In this project, we propose to use a non-local van der Waals functional in the following framework:
- The ABINIT software [2] will be used developed as part of an high visibility international project,
and especially in our group. ABINIT is computational software in the DFT formalism, using a plane
wave basis. It has recently been adapted to many-core computer architectures (e.g. Intel MIC).
- The non-local van der Waals functional will be implemented in the complete "Projector
Augmented-Wave"
(PAW) formalism, which allows obtaining results with a high precision. To date,
there is no code implementing a complete "PAW + van der Waals" formalism.
- The calculation of van der Waals forces will be coupled with the "Path-Integral Molecular
Dynamics"
method, in order to take into account both long-range interactions and the quantum
effect of hydrogen nuclei. To our knowledge, this has not yet been achieved on the materials
studied here.

The applicant will first have to develop the theoretical framework (complete non-local functional in
the PAW formalism); then implement it in the ABINIT code, with particular attention paid to
parallelism on many-core architecture. Finally the code will be used for the targeted applications
(properties of the molecular solids).

The CEA is a leading national center for numerical simulations and has also access to multiple
computational resources in several HPC centers.

Requisites:
The candidate should have obtained a PhD in computational/theoretical physics for less than two
years; they should have an interest in the use of electronic structure methods to solve challenging
condensed matter problems
and a solid background in solid state physics.
Experience in development and good knowledge of computing language(s) (Fortran, C) is a
prerequisite. A parallel programming experience is welcome.
The postdoctoral position is available for one year, renewable upon mutual agreement.
Because of restrictions due to European supercomputers access we are looking for candidate
nationals from Europe or north-America.

If you are interested and motivated by this project, please send a detailed CV and a letter of
application to Jordan Bieder (Jordan DOT Bieder AT cea.fr) and Marc Torrent (marc DOT torrent AT
cea.fr), CEA, Bruyères-le-Chatel, 91297 Arpajon - France

[1] Dion et al., Phys. Rev. Lett. 92, 246401 (2004)
[2] http://www.abinit.org
[3] Torrent et al., Comp. Mat. Sc. 42, 337 (2008)

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