Menu

Blog

Page 282

Oct 5, 2024

Numerical simulation of deformable droplets in three-dimensional, complex-shaped microchannels

Posted by in categories: computing, information science, physics

The physics of drop motion in microchannels is fundamental to provide insights when designing applications of drop-based microfluidics. In this paper, we develop a boundary-integral method to simulate the motion of drops in microchannels of finite depth with flat walls and fixed depth but otherwise arbitrary geometries. To reduce computational time, we use a moving frame that follows the droplet throughout its motion. We provide a full description of the method, including our channel-meshing algorithm, which is a combination of Monte Carlo techniques and Delaunay triangulation, and compare our results to infinite-depth simulations. For regular geometries of uniform cross section, the infinite-depth limit is approached slowly with increasing depth, though we show much faster convergence by scaling with maximum vs average velocities. For non-regular channel geometries, features such as different branch heights can affect drop partitioning, breaking the symmetric behavior usually observed in regular geometries. Moreover, non-regular geometries also present challenges when comparing the results for deep and infinite-depth channels. To probe inertial effects on drop motion, the full Navier–Stokes equations are first solved for the entire channel, and the tabulated solution is then used as a boundary condition at the moving-frame surface for the Stokes flow inside the moving frame. For moderate Reynolds numbers up to Re = 5, inertial effects on the undisturbed flow are small even for more complex geometries, suggesting that inertial contributions in this range are likely small. This work provides an important tool for the design and analysis of three-dimensional droplet-based microfluidic devices.

Oct 5, 2024

Harnessing magnetic relaxation: ‘Pac-Man effect’ enables precise organization of superparamagnetic beads

Posted by in category: biotech/medical

Particles that are larger than regular molecules or atoms yet remain invisible to the naked eye can form a variety of useful structures, including miniature propellers for microrobots, cellular probes, and steerable microwheels designed for targeted drug delivery.

Oct 5, 2024

The earliest galaxies formed amazingly fast after the Big Bang. Do they break the universe or change its age?

Posted by in category: cosmology

The James Webb Space Telescope (JWST) is the largest and most powerful space telescope built to date. Since it was launched in December 2021 it has provided groundbreaking insights. These include discovering the earliest and most distant known galaxies, which existed just 300 million years after the Big Bang.

Oct 5, 2024

Direct measurement of a subtle current phase relation shows potential for more stable superconducting qubits

Posted by in categories: computing, quantum physics

In recent years, quantum physicists and engineers have made significant strides toward the development of highly performing quantum computing systems. Realizing a quantum advantage over classical computing systems and enabling the stable operation of quantum devices, however, will require the development of new building blocks for these devices and other aspects underlying their correct functioning.

Oct 5, 2024

Newly developed material can suppress thermal runaway in batteries

Posted by in categories: chemistry, materials

A team of engineers and materials scientists at LG Chem, Korea’s largest chemical company, has developed a material that they claim could greatly reduce the risk of thermal runaway and resulting fires in batteries. In their paper published in the journal Nature Communications, the group describes how they developed the material and how well it has worked during testing.

Over the past several years, consumers have witnessed or have heard about batteries in smartphones or cars catching on fire. These fires, it has been found, result from thermal runaway, which is where the anode and cathode inside a battery come too close together, or worse, actually touch.

The result is a short, which generates heat, and results soon thereafter in a fire. In this new effort, the team at LG has developed a thin material that, when placed between the cathode and collector, prevents thermal runaway.

Oct 5, 2024

Scientists achieve unprecedented control of active matter

Posted by in categories: innovation, physics

An international research team led by Brandeis University has achieved a major breakthrough in the field of active matter physics, as detailed in a study published this week in Physical Review X. This pioneering research offers the first experimental validation of a key theoretical prediction about 3D active nematic liquid crystals by trapping them within cell-sized spherical droplets.

Oct 5, 2024

Quantum communication: Using microwaves to efficiently control diamond qubits

Posted by in categories: computing, quantum physics

In a first for Germany, researchers at the Karlsruhe Institute of Technology (KIT) have shown how tin vacancies in diamonds can be precisely controlled using microwaves. These vacancies have special optical and magnetic properties and can be used as qubits, the smallest computational units for quantum computing and quantum communication. The results are an important step for the development of high-performance quantum computers and secure quantum communications networks.

Oct 5, 2024

Niobium-tin magnet could be key to unlocking potential of heavy-ion accelerator

Posted by in category: physics

Researchers from Berkeley Lab’s Accelerator Technology & Applied Physics (ATAP) Division have teamed up with colleagues from Michigan State University’s Facility for Rare Isotope Beams (FRIB), the world’s most powerful heavy-ion accelerator, to develop a new superconducting magnet based on niobium-tin (Nb3Sn) technology.

Oct 5, 2024

Scientists Discover Mysterious Modern Underwater Ice Structures on Arctic Seafloor

Posted by in category: futurism

A group of international researchers utilized the advanced underwater technology from MBARI to explore and record the changes in underwater landscapes in a remote Arctic region, focusing on the effects of melting permafrost and the formation of new ice.

Researchers from Monterey Bay Aquarium Research Institute (MBARI), in collaboration with an international team, have discovered extensive underwater ice formations along the edge of the Canadian Beaufort Sea, in a remote Arctic region. This finding uncovers a previously unknown process contributing to the continued formation of submarine permafrost ice.

In a previous MBARI study, researchers observed enormous craters on the seafloor in this area, attributed to the thawing of ancient permafrost submerged underwater. While exploring the flanks of these craters on a subsequent expedition, MBARI researchers and collaborators from the Korea Polar Research Institute (KOPRI), the Korea Institute of Geoscience and Mineral Resources, the Geological Survey of Canada, and the U.S. Naval Research Laboratory observed exposed layers of submarine permafrost ice.

Oct 5, 2024

Shapley Supercluster Discovery Shatters Previous Cosmic Boundaries

Posted by in category: space

Researchers at the University of Hawaiʻi have revealed that our galaxy, part of the Laniākea supercluster, might actually reside within a significantly larger cosmic structure, potentially centered around the massive Shapley concentration.

This discovery, emerging from the study of 56,000 galaxies, suggests that our cosmic neighborhood could be 10 times larger than previously estimated, challenging existing models of the universe’s structure.

An international research team guided by astronomers at the University of Hawaiʻi Institute for Astronomy is challenging our understanding of the universe with groundbreaking findings that suggest our cosmic neighborhood may be far larger than previously thought. The Cosmicflows team has been studying the trajectories of 56,000 galaxies, revealing a potential shift in the scale of our galactic basin of attraction.

Page 282 of 12,079First279280281282283284285286Last