Dein Suchergebnis zum Thema: Bären

MPI for Intelligent Systems, Stuttgart site

https://www.mpg.de/154324/intelligent-systems-stuttgart?filter=leitung

The scientists at the Max Planck Institute for Intelligent Systems (formerly: Max Planck Institute for Metals Research) dedicate their efforts to the material sciences. Their interests include, among other things, how the functioning of materials determines the atomic, nanoscopic and microscopic scale of their macroscopic behaviour. To this end, one of their main fields of research is nanoscience – the scientists investigate magnetic material and fluids on the nanoscale, for example. A further focus of their research is the interface between nanotechnology and biology, such as the behaviour of cells on different surfaces. Many of the phenomena being investigated occur when a material is converted from one state into another or at the interface between two materials. Understanding what happens at such interfaces could help create materials which are more stable and invest them with targeted properties.
spiders‘ legs and used them to build lightweight and delicate robots that raise the bar

MPI for Intelligent Systems, Stuttgart site

https://www.mpg.de/154324/intelligent-systems-stuttgart?filter=media

The scientists at the Max Planck Institute for Intelligent Systems (formerly: Max Planck Institute for Metals Research) dedicate their efforts to the material sciences. Their interests include, among other things, how the functioning of materials determines the atomic, nanoscopic and microscopic scale of their macroscopic behaviour. To this end, one of their main fields of research is nanoscience – the scientists investigate magnetic material and fluids on the nanoscale, for example. A further focus of their research is the interface between nanotechnology and biology, such as the behaviour of cells on different surfaces. Many of the phenomena being investigated occur when a material is converted from one state into another or at the interface between two materials. Understanding what happens at such interfaces could help create materials which are more stable and invest them with targeted properties.
spiders‘ legs and used them to build lightweight and delicate robots that raise the bar

MPI for Intelligent Systems, Stuttgart site

https://www.mpg.de/154324/intelligent-systems-stuttgart?filter=mpi_news

The scientists at the Max Planck Institute for Intelligent Systems (formerly: Max Planck Institute for Metals Research) dedicate their efforts to the material sciences. Their interests include, among other things, how the functioning of materials determines the atomic, nanoscopic and microscopic scale of their macroscopic behaviour. To this end, one of their main fields of research is nanoscience – the scientists investigate magnetic material and fluids on the nanoscale, for example. A further focus of their research is the interface between nanotechnology and biology, such as the behaviour of cells on different surfaces. Many of the phenomena being investigated occur when a material is converted from one state into another or at the interface between two materials. Understanding what happens at such interfaces could help create materials which are more stable and invest them with targeted properties.
spiders‘ legs and used them to build lightweight and delicate robots that raise the bar

A new dimension in materials research

https://www.mpg.de/4325134/materials_research_dimension?page=2

In the future, physicists will be able to follow a new lead in their search for new materials for electronic components, for example. An international team of researchers headed by scientists at the Max Planck Institute for Solid State Research in Stuttgart is the first to accurately observe how the physical properties of a substance – or to be more precise of the metal oxide lanthanum nickel oxide – change when it is used in two-dimensional, instead of three-dimensional form. In fact, a film consisting of two layers of material exhibits completely different electronic and magnetic effects when cooled to very low temperatures than does a film comprising four layers. The ability to control the physical characteristics via the dimension as well opens up new possibilities to identify materials from which the chips of the future could be made.
magnetic moments of the electrons align themselves so as to be antiparallel, just like bar

Handgesten helfen uns, vorherzusagen, was ein Sprecher als nächstes sagen wird

https://www.mpg.de/23951712/mpipsyl_jb_2023?c=119539

Die menschliche Sprache in persönlichen Interaktionen ist multimodal, wobei Handgesten wichtige Informationen übermitteln: Unsere Forschung zeigt, dass sie die Sprachverarbeitung erleichtern und zu schnelleren Antworten führen. Gesten gehen oft den zugehörigen Worten voraus, und EEG- Untersuchungen bestätigen, dass das Sehen bedeutungsvoller Gesten die vorzeitige mentale Aktivierung der dargestellten Bedeutung fördert. MultimodDie menschliche Sprache in persönlichen Interaktionen ist multimodal, wobei Handgesten wichtige Informationen übermitteln. Unsere Forschungen zeigen, dass Gesten die Sprachverarbeitung erleichtern und zu schnelleren Antworten führen.ale Wahrnehmung, vor allem visuelle Kommunikation, scheint die Sprachverarbeitung zu vereinfachen und zu beschleunigen, was in persönlichen Gesprächen vorteilhaft ist.
Wenn beispielsweise jemand eine Freundin in einer Bar fragt, ob sie noch etwas trinken

MPI for Intelligent Systems, Stuttgart site

https://www.mpg.de/154324/intelligent-systems-stuttgart?filter=jobs

The scientists at the Max Planck Institute for Intelligent Systems (formerly: Max Planck Institute for Metals Research) dedicate their efforts to the material sciences. Their interests include, among other things, how the functioning of materials determines the atomic, nanoscopic and microscopic scale of their macroscopic behaviour. To this end, one of their main fields of research is nanoscience – the scientists investigate magnetic material and fluids on the nanoscale, for example. A further focus of their research is the interface between nanotechnology and biology, such as the behaviour of cells on different surfaces. Many of the phenomena being investigated occur when a material is converted from one state into another or at the interface between two materials. Understanding what happens at such interfaces could help create materials which are more stable and invest them with targeted properties.
spiders‘ legs and used them to build lightweight and delicate robots that raise the bar