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Nuclear fusion is a source of great hope for future energy security, with this field being explored in research reactors around the world. Accurately detecting their performance requires measurement systems that supply valid data even under extreme conditions. And the centerpiece of those systems are the bolometers from the Fraunhofer Institute for Microengineering and Microsystems IMM. Experts from the institute will be presenting their sophisticated sensors at the joint Fraunhofer booth (Hall 2, Booth B24) at this year’s Hannover Messe trade show from March 31 to April 4.

Fusion technology could be the solution to the increasing energy needs of the growing global population, but it is a highly demanding technology. The current challenge is to carry out experiments that produce more energy than they consume. To accurately capture advances in this field, specialists need exceptionally sensitive measuring instruments to analyze and control the complex processes taking place inside the reactors. Determining how much power is emitted from the fusion plasma is crucial to this.

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Foie gras—the fattened liver of ducks or geese—is a French delicacy prized for its rich, buttery flavor. But its production, which involves force-feeding the animals, has led to bans in several countries.

Now, a team of scientists says they’ve developed a more ethical alternative: one that mimics the taste and texture of the dish, minus the controversy.

The results were published Tuesday in the journal Physics of Fluids.

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A newly developed framework for quantifying uncertainties enhances the predictive power of analog quantum simulations. Simulating quantum many-body systems is a major objective in nuclear and high-energy physics. These systems involve large numbers of interacting particles governed by the laws of

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The interactions between light and nitroaromatic hydrocarbon molecules have important implications for chemical processes in our atmosphere that can lead to smog and pollution. However, changes in molecular geometry due to interactions with light can be very difficult to measure because they occur at sub-Angstrom length scales (less than a tenth of a billionth of a meter) and femtosecond time scales (one millionth of a billionth of a second).

The relativistic ultrafast electron diffraction (UED) instrument at the Linac Coherent Light Source (LCLS) at SLAC National Accelerator Laboratory provides the necessary spatial and time resolution to observe these ultrasmall and ultrafast motions. The LCLS is a Department of Energy (DOE) Office of Science light source user facility.

In this research, scientists used UED to observe the relaxation of photoexcited o–nitrophenol. Then, they used a genetic structure fitting algorithm to extract new information about small changes in the molecular shape from the UED data that were imperceptible in previous studies. Specifically, the experiment resolved the key processes in the relaxation of o-nitrophenol: proton transfer and deplanarization (i.e., a rotation of part of the molecule out of the molecular plane). Ab-initio multiple spawning simulations confirmed the experimental findings. The results provide new insights into proton transfer-mediated relaxation and pave the way for studies of proton transfer in more complex systems.

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NASA scientists are using space-based imaging technology to unlock the hidden world of flowers. By tracking wildflower blooms across California nature preserves using advanced spectrometers, researchers are uncovering how flower color and timing reflect broader environmental changes. This new met

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Researchers at Osaka University have revealed a link between the equations describing strain caused by atomic dislocations in crystalline materials and a well-established formula from electromagnetism, an insight that could advance research in condensed matter physics. A fundamental goal of physi

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A new collaboration between Brown University and TU Delft has brought us closer to interstellar travel using light-powered sails. By combining ultra-thin, highly reflective materials with AI-optimized nanoscale design, researchers created a revolutionary lightsail that’s cheaper, faster to make.

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Why do certain plants flourish in some regions but not in others? A study led by researchers at the University of Göttingen sheds light on the factors that determine where plants grow and how these patterns have evolved over millions of years.

The team analyzed data from nearly 270,000 seed plant species.

A species is a group of living organisms that share a set of common characteristics and are able to breed and produce fertile offspring. The concept of a species is important in biology as it is used to classify and organize the diversity of life. There are different ways to define a species, but the most widely accepted one is the biological species concept, which defines a species as a group of organisms that can interbreed and produce viable offspring in nature. This definition is widely used in evolutionary biology and ecology to identify and classify living organisms.

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