During the last decades, the theoretical understanding of single quantum systems, such as single ions or atoms, as well as the experimental ability to manipulate them, has reached an unprecedented level. New challenges concern the characterization of correlations between individual quantum systems.
Statistical approaches to capture such correlations have been established in numerous branches of quantum physics and mathematics. Different notions and perspectives on common ideas have deleloped in different, seemingly disjoint communities.
The aim of the confernce is to establish bridges among these communities, bringing together both young and experienced scientists.
Dr. Herbert von Bose | idw
LaserForum 2018 deals with 3D production of components
17.08.2018 | IVAM Fachverband für Mikrotechnik
Within reach of the Universe
08.08.2018 | Zentrum für angewandte Raumfahrttechnologie und Mikrogravitation (ZARM)
New design tool automatically creates nanostructure 3D-print templates for user-given colors
Scientists present work at prestigious SIGGRAPH conference
Most of the objects we see are colored by pigments, but using pigments has disadvantages: such colors can fade, industrial pigments are often toxic, and...
Scientists at the University of California, Los Angeles present new research on a curious cosmic phenomenon known as "whistlers" -- very low frequency packets...
Scientists develop first tool to use machine learning methods to compute flow around interactively designable 3D objects. Tool will be presented at this year’s prestigious SIGGRAPH conference.
When engineers or designers want to test the aerodynamic properties of the newly designed shape of a car, airplane, or other object, they would normally model...
Researchers from TU Graz and their industry partners have unveiled a world first: the prototype of a robot-controlled, high-speed combined charging system (CCS) for electric vehicles that enables series charging of cars in various parking positions.
Global demand for electric vehicles is forecast to rise sharply: by 2025, the number of new vehicle registrations is expected to reach 25 million per year....
Proteins must be folded correctly to fulfill their molecular functions in cells. Molecular assistants called chaperones help proteins exploit their inbuilt folding potential and reach the correct three-dimensional structure. Researchers at the Max Planck Institute of Biochemistry (MPIB) have demonstrated that actin, the most abundant protein in higher developed cells, does not have the inbuilt potential to fold and instead requires special assistance to fold into its active state. The chaperone TRiC uses a previously undescribed mechanism to perform actin folding. The study was recently published in the journal Cell.
Actin is the most abundant protein in highly developed cells and has diverse functions in processes like cell stabilization, cell division and muscle...
17.08.2018 | Event News
08.08.2018 | Event News
27.07.2018 | Event News
17.08.2018 | Physics and Astronomy
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17.08.2018 | Life Sciences