Projects
Hessian scientists of various disciplines are using High Performance Computers for their research.
Projects
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Displaying 31 - 60 of 78
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
Matrix Elements of New Families of Chiral Interactions
The goal of ab initio nuclear structure theory is the description of nuclei from first principles without uncontrolled ...
Natural SciencesParticles, Nuclei and Fields
Precision Scale Setting Directly at High Temperatures Using Gradient Flow
The overarching goal of our research project is the determination of the QCD topological susceptibility Xtop(T) at very ...
Natural SciencesParticles, Nuclei and Fields
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
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
Color Center Formation Induced by Femtosecond Lasers
The interactions of ultrashort-light pulses with solids and nanostructures is a continuously growing area due to the ...
Natural SciencesTheoretical Condensed Matter Physics
First-Principles Calculations on Grain Boundaries in Nanocrystalline Graphene
The modification of intrinsic properties of graphene via defects, such as grain boundaries, has been an intense field of ...
Natural SciencesTheoretical Condensed Matter Physics
High Throughput Screening and Tuning of Magnetic Two Dimensional Materials
The demand of minimization and feasibility of integration makes two-dimensional (2D) materials remarkable in promising ...
Natural SciencesTheoretical Condensed Matter Physics
High Throughput Screening for Spin-Polarized Current in Noncollinear Materials
Like perovskite materials, antiperovskites (APVs) display many intriguing physical properties. Particularly, the ...
Natural SciencesTheoretical Condensed Matter Physics
High Throughput Screening of Topological Properties in Ferromagnets
In this work, we performed first-principles calculations to evaluate the anomalous Hall conductivity as well as the ...
Natural SciencesTheoretical Condensed Matter Physics
Large-Scale Configuration Interaction for Ab Initio Nuclear Structure
The goal of ab initio nuclear structure theory is the description of correlated systems of many nucleons based on the ...
Natural SciencesParticles, Nuclei and Fields
Laser-Induced Generation Nanostructures and Nanoparticles of Different Materials in Different Media: Molecular Dynamics Investigation
The mechanisms of laser-matter interaction are of great importance for many applications including the development of ...
Natural SciencesTheoretical Condensed Matter Physics
Topological Susceptibility at High Temperatures from Lattice Quantum Chromodynamics
The theory of the strong interaction, Quantum Chromodynamics, is known to have complicated topological structures called ...
Natural SciencesParticles, Nuclei and Fields
Ab-Initio Description of Phase Transitions in TiO2 and Ab-Initio Molecular Dynamics Simulations of Ultrafast Excited Graphene and Amorphous Carbon
The understanding of the interaction of ultrashort light pulses with solids and nanostructures is important for both ...
Natural SciencesTheoretical Condensed Matter Physics
Density Functional Theory of Strongly Correlated Electrons: Exploiting the Links Between Ground-State Correlation Energy and Independent Fermion Entropy
The accurate many-particle description of systems exhibiting strong electronic correlations is one of the most ...
Natural SciencesTheoretical Condensed Matter Physics
Electrical Conductivity and Relaxation via Colored Noise in a Hadronic Gas
Calculating transport properties such as the electrical conductivity of a strongly interacting hadron gas is a difficult ...
Natural SciencesParticles, Nuclei and Fields-
Fully Open-Shell Medium-Mass Nuclei and Electromagnetic Observables for Ab Initio Nuclear Structure I
The ab initio description of nuclear physics phenomena has progressed tremendously over the past years. In particular ...
Natural SciencesParticles, Nuclei and Fields 
Ground- and Excited-State Properties of Substrate-Supported Nanowires Calculated From First Principles
Ideal one-dimensional electronic systems are characterized by unusual and fascinating physical phenomena, including ...
Natural SciencesTheoretical Condensed Matter Physics
Hadronic Non-Equilibrium Photon Production
The smallest constituents of matter and their properties are studied by means of relativistic heavy ion collisions ...
Natural SciencesParticles, Nuclei and Fields
High-Throughput Computational Screening Research on Mn-based Heusler Alloys
Comparing to traditional electronics, spintronics makes use of both charge and spin freedoms of electrons, which is ...
Natural SciencesTheoretical Condensed Matter Physics
High Throughput Optimization of Permanent Magnetic Materials
Permanent magnets are an important component in a wide range of everyday devices. Present high performance magnets like ...
Natural SciencesTheoretical Condensed Matter Physics
High Throughput Screening of Magnetic Antiperovskites
Analogous to perovskites, the antiperovskites (APVs) are also one of the most commonly explored materials in recent ...
Natural SciencesTheoretical Condensed Matter Physics-
Matrix Elements of Next-Generation Chiral Interactions
In recent years interactions from chiral effective field theory (chiral EFT) have been used very successfully in ab ...
Natural SciencesParticles, Nuclei and Fields 
Modelling of Nanoparticle Generation due to a Short Laser Pulse and Nanoparticle Ablation in Different Media
This work is a successor of our previous study [1], were the mechanism of periodic nanostructuring process due to UV ...
Natural SciencesTheoretical Condensed Matter Physics
Simulation of a Femtosecond Laser Excitation in Antimony
If a femtosecond laser pulses excites matter, the electrons are excited to a high temperature whereas the ions remain ...
Natural SciencesTheoretical Condensed Matter Physics
Transverse Momentum Broadening of High-Energy Partons From 3D Lattice EQCD Simulations
Quantum Chromodynamics (QCD) is the theory of the strong nuclear force. Analogously to the theory of the electromagnetic ...
Natural SciencesParticles, Nuclei and Fields
Ab-Initio Calculation of Fundamental Properties of Strained Heterostructures
Many opto-electronic devices, such as laser diodes, solar cells or semiconductor sensors, comprise of semiconductor ...
Natural SciencesTheoretical Condensed Matter PhysicsOptics, Quantum Optics and Physics of Atoms, Molecules and PlasmasEngineering SciencesMaterials Science
DFT Based Modeling of the Optical Properties of Dilute Bismides
For the modern communication and information technology semiconductors with improved optoelectronic properties are ...
Natural SciencesTheoretical Condensed Matter PhysicsOptics, Quantum Optics and Physics of Atoms, Molecules and PlasmasEngineering SciencesMaterials Science
Ab-initio Description of p-shell Hypernuclei
Hypernuclei are atomic nuclei that contain other baryons apart from nucleons (protons and neutrons). These other baryons ...
Natural SciencesParticles, Nuclei and Fields
