
Projects
Hessian scientists of various disciplines are using High Performance Computers for their research.
Hessian scientists of various disciplines are using High Performance Computers for their research.
Displaying 1 - 30 of 141
Our hands are an example for chiral objects: they cannot be brought to coincide with its mirror image by any rotations ...
Semiconductors are the fundament of modern technology and still in the focus of current research. With decreasing size ...
Fe-N-C catalysts are a promising substitution material for rare and expensive platinum catalysts on the cathodic side of ...
The field of spintronics recently gained much interest because it promises faster, smaller and less energy consuming ...
Magnetic interactions in transition metal complexes arise from coupling of unpaired electrons, usually localized ...
The photoelectron spectroscopy data of organic molecules, in our case organic semiconductors, are mainly dominated by ...
The computational modeling of molecular transformations in organic chemistry, e.g. photo-inducible isomerizations of ...
Recent numerical stabilization approaches provide new opportunities for viscoelastic flow simulations. The numerical ...
Like perovskite materials, antiperovskites (APVs) display many intriguing physical properties. Particularly, the ...
In this work, we performed first-principles calculations to evaluate the anomalous Hall conductivity as well as the ...
Entanglements between polymer chains are demonstrated as one of the key factors to modulate the macroscopic physical ...
The goal of ab initio nuclear structure theory is the description of correlated systems of many nucleons based on the ...
Understanding the behavior of different materials not only furthers general knowledge, but can also often be used for ...
After the matrix isolation of aminomethylene (H-C̈-NH2)[1] we study further the formation of amino acids and sugars in ...
Alkali metal-oxygen batteries have a particularly high energy density and therefore concepts for rechargeable batteries ...
The understanding of the interaction of ultrashort light pulses with solids and nanostructures is important for both ...
Many real-world phenomena are modelled by partial differential equations. Even in relatively low dimensions, the ...
Novel methods to access complex molecular structures open new avenues for applications in medicalas well as material ...
Atmospheric gravity waves (GWs) are rather short in wavelength (1km – 100km in the horizontal, 100m – 10km in the ...
Novel methods to access complex molecular structures open new avenues for applications in medical as well as material ...
We planned to test a method for ranking nodes in a network (for example web pages in the internet) that is an ...
Smart polymers respond to environmental factors such as change in temperature, pH, or solvent. An example is the ...
The accurate many-particle description of systems exhibiting strong electronic correlations is one of the most ...
Calculating transport properties such as the electrical conductivity of a strongly interacting hadron gas is a difficult ...
Circular Rydberg states refer to the valence electron of a highly excited atom in a circular orbit. Due to their very ...
Alkanes are attractive feedstock chemicals due to their natural occurrence and they offer access to a wide variety of ...
Carbohydrates “(CH2O)n” or sugars are the formal adducts of carbon (atoms) to water with a repeating unit that ...
Semiconductors are the fundament of modern technology and as such still a topic of current research. With decrease in ...
Gadolinium-doped tin clusters belong to an interesting class of nanoalloys. They combine the quasi-aromatically ...
Ideal one-dimensional electronic systems are characterized by unusual and fascinating physical phenomena, including ...