Projects
Hessian scientists of various disciplines are using High Performance Computers for their research.
Projects
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Projekte
Displaying 1 - 30 of 63
First-Principles Calculations of Spectroscopic Signatures III
Linking experimental and theoretical observations on a physical system is one of the key objectives of modern science ...
Natural SciencesTheoretical Condensed Matter Physics
Electronic Theory of the Magnetic Order in Thin Films
Symmetry, dimensionality, and local environment are essential elements affecting the magnetism of transition-metal ...
Natural SciencesTheoretical Condensed Matter Physics
Principles of On-Surface Synthesis
In the past centuries chemists have established a solid knowledge for the synthesis of molecules in solution. With the ...
Natural SciencesTheoretical Condensed Matter Physics
Rational Design of Narrow-Hysteresis Materials by Tailoring Magnetoelastic Interactions III
Functional materials for magnetic cooling devices at room temperature are in focus for the materials scientists during ...
Natural SciencesTheoretical Condensed Matter Physics
An Agent-Based Model of Radiation-Induced Lung Fibrosis
Radiation-induced lung injuries such as pneumonitis and lung fibrosis (RILF) can lead to respiratory failure and ...
Natural SciencesStatistical Physics, Soft Matter, Biological Physics, Nonlinear Dynamics
Designing Materials With Photo-Induced Phase Transitions
The potential of chalcogenides in applications like optoelectronics, thermoelectrics, transparent contacts, and thin ...
Natural SciencesTheoretical Condensed Matter Physics
Dislocations for Defect-Based Quantum Computing
A quantum computer is a device that exploits quantum behavior to solve a computational problem that cannot be tackled ...
Natural SciencesTheoretical Condensed Matter PhysicsEngineering SciencesMaterials Science
First-Principles Calculations of Spectroscopic Signatures II
Linking experimental and theoretical observations on a physical system is one of the key objectives of modern science ...
Natural SciencesTheoretical Condensed Matter Physics-
High-Throughput Discovery of Mab and Mbene Superconductors
We survey the landscape of MAB and Mbene superconductors out of our previous high-throughput predictions using first ...
Natural SciencesTheoretical Condensed Matter Physics 
MD-Simulations to Study the Effect of Electric Fields on the SARS-CoV-2 Postfusion Structure
The interaction between the Spike (S) glycoprotein and the ACE2 receptor on the host cell constitutes the pivotal ...
Natural SciencesStatistical Physics, Soft Matter, Biological Physics, Nonlinear Dynamics
Modeling Soft and Biological Matter Systems
The project was majorly dedicated to build cell mechanistic models and study cell mechanics and cell migration. Both ...
Natural SciencesStatistical Physics, Soft Matter, Biological Physics, Nonlinear Dynamics
Optical Response of (Hetero)Adamantine Clusters
White light generation (WLG) is one of the most puzzling and exciting topics in nonlinear optics. Strictly speaking, WLG ...
Natural SciencesTheoretical Condensed Matter Physics
Phase Diagram of Inertial Active Brownian Particles
Active matter consisting of motile agents such as bacteria, algae, or synthetic microswimmers on the microscale and ...
Natural SciencesTheoretical Condensed Matter Physics
Ultrafast Laser Induced Structural Motion in Thin Au Films
A recent ultrafast electron diffraction experiment led by our collaborator has showed an interesting response of a thin ...
Natural SciencesTheoretical Condensed Matter Physics-
Ab Initio Modeling of Iron in Molecular, Surface and Bulk Environments
In a hydrogen fuel cell, that consists of an anode and a cathode, oxidation and reduction reactions occur simultaneously ...
Natural SciencesTheoretical Condensed Matter Physics 
Agent-Based Model of Radiation-Induced Lung Toxicity
Understanding the pathophysiology of lung fibrosis is of paramount importance to elaborate targeted and effective ...
Natural SciencesStatistical Physics, Soft Matter, Biological Physics, Nonlinear Dynamics
CCDCGAN: Inverse design of crystal structures
Autonomous materials discovery with desired properties is one of the ultimate goals for modern materials science, and ...
Natural SciencesTheoretical Condensed Matter Physics
Molecular Dynamics Simulation of Fe-based Magnetocaloric Materials
Magnetocaloric materials are of interest for magnetic refrigeration of microfluidic reactors, electronic chips or other ...
Engineering SciencesMaterials Engineering
Rational Design of Narrow-Hysteresis Materials by Tailoring Magnetoelastic Interactions II
The current project aims to reveal the relevant intrinsic mechanisms responsible for the coupling of the lattice and ...
Natural SciencesTheoretical Condensed Matter Physics
Simulation of Diamond Based Quantum Token
NV centers – a nitrogen atom together with a vacancy – embedded in diamond provide a promising system to generate ...
Natural SciencesTheoretical Condensed Matter Physics
Unraveling SARS-Cov-2 Spike Protein Conformational Dynamics Under the Influence of Electric Fields
The spike glycoprotein's interaction with the ACE2 receptor on the host cell is the crucial initial step for virus entry ...
Natural SciencesStatistical Physics, Soft Matter, Biological Physics, Nonlinear Dynamics
Bayesian Inference of Cyclic Transcription Dynamics
Transcription is the process of converting DNA into RNA and is essential to cellular life. The transcription process ...
Natural SciencesStatistical Physics, Soft Matter, Biological Physics, Nonlinear Dynamics
First-Principles Calculations of Spectroscopic Signatures I
Ideal one-dimensional (1D) electronic systems are fascinating, as they show quantisation of conductance, charge-density ...
Natural SciencesTheoretical Condensed Matter Physics-
From RNA Sequence to Coarse-Grained Molecular Dynamics
The dynamics of large biomolecules such as proteins or RNAs provide an important insight into their function and ...
Natural SciencesStatistical Physics, Soft Matter, Biological Physics, Nonlinear Dynamics 
High-Throughput Design of New Perovskite Oxide Antiferroelectric Materials
Antiferroelectric (AFE) materials have recently been of a great interest, due to their unique applications in the energy ...
Natural SciencesTheoretical Condensed Matter Physics
Interplay Between Spin Orbital and Lattice Degrees of Freedom in Multiferroic and Orbital Ordered Oxide Systems
The electronic structure plays a key role in determining the physical properties of highly correlated electron systems ...
Natural SciencesTheoretical Condensed Matter Physics
Rational Design of Narrow-Hysteresis Materials by Tailoring Magnetoelastic Interactions
One important aim of modern energy-conserving technologies is magnetic cooling at room temperature. This environmentally ...
Natural SciencesTheoretical Condensed Matter PhysicsEngineering SciencesMaterials Science
Testing and Development of Methods for the Calculation of Phase Diagrams of Interatomic Potentials
Understanding the behavior of different materials not only furthers general knowledge, but can also often be used for ...
Natural SciencesStatistical Physics, Soft Matter, Biological Physics, Nonlinear Dynamics
Ab Initio Calculations on the Intrinsic Spin Hall Effect
The field of spintronics recently gained much interest because it promises faster, smaller and less energy consuming ...
Natural SciencesTheoretical Condensed Matter Physics
Ab-Initio Molecular Dynamics Simulations of Ultrafast Excited Graphite and Amorphous Carbon
Femtosecond laser pulses excite the electrons of matter to a high temperature whereas the ions remain mainly unaffected ...
Natural SciencesTheoretical Condensed Matter Physics
