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Oct 5, 2024

‘Amazing’ trial shows drug combination stops lung cancer advancing for longer

Posted by in category: biotech/medical

Exclusive: Global trial finds treatment with amivantamab and lazertinib halts progression for average of 23.7 months.

Oct 5, 2024

Hosting the Universe in a Quantum Computer: Scientists Simulate Cosmological Particle Creation

Posted by in categories: computing, mathematics, particle physics, quantum physics

The foundation of this simulation, as described by the team, is a well-known cosmological model that describes the universe as expanding uniformly over time. The researchers modeled how a quantum field, initially in a vacuum state (meaning no particles are present), responds to this expansion. As spacetime stretches, the field’s oscillations mix in a process that can create particles where none previously existed. This phenomenon is captured by a transformation that relates the field’s behavior before and after the universe expands, showing how vibrations at different momenta become entangled, leading to particle creation.

To understand how many particles are generated, the researchers used a mathematical tool called the Bogoliubov transformation. This approach describes how the field’s vacuum state evolves into a state where particles can be detected. As the expansion rate increases, more particles are produced, aligning with predictions from quantum field theory. By running this simulation on IBM quantum computers, the team was able to estimate the number of particles created and observe how the quantum field behaves during the universe’s expansion, offering a new way to explore complex cosmological phenomena.

According to the team, the most notable result of the study was the ability to estimate the number of particles created as a function of the expansion rate of the universe. By running their quantum circuit on both simulators and IBM’s 127-qubit Eagle quantum processor, the researchers demonstrated that they could successfully simulate particle creation in a cosmological context. While the results were noisy—particularly for low expansion rates—the error mitigation techniques used helped bring the outcomes closer to theoretical predictions.

Oct 5, 2024

CRISPR helps brain stem cells regain youth in mice

Posted by in categories: biotech/medical, neuroscience

Disabling a gene involved in metabolism rejuvenates cells’ ability to spin off new neurons.

Oct 5, 2024

Dr. Luba Perry, Ph.D. — CEO, ReConstruct Bio — Bioengineered Breast Reconstruction And Augmentation

Posted by in categories: bioengineering, biotech/medical, health

Bioengineered breast reconstruction and augmentation — dr. luba perry, phd — CEO, reconstruct bio.


Dr. Luba Perry, Ph.D. is Co-Founder and CEO of ReConstruct Bio (https://wyss.harvard.edu/technology/r…), an innovative venture emerging from Harvard’s Wyss Institute (https://wyss.harvard.edu/team/advance…), aimed at redefining the fields of medical reconstruction and aesthetics with an initial application of their groundbreaking technology on breast reconstruction and augmentation. With a multidisciplinary team of experts, the ReConstruct Bio team has developed the BioImplant—a living, bioengineered tissue created from the patient’s own cells, to provide safer, more natural alternative to current standards, which are often associated with significant drawbacks and health concerns.

Continue reading “Dr. Luba Perry, Ph.D. — CEO, ReConstruct Bio — Bioengineered Breast Reconstruction And Augmentation” »

Oct 5, 2024

Theoretical physicist uncovers how twisting layers of a material can generate mysterious electron-path-deflecting effect

Posted by in category: materials

In 2018, a discovery in materials science sent shock waves throughout the community. A team showed that stacking two layers of graphene—a honeycomb-like layer of carbon extracted from graphite—at a precise “magic angle” turned it into a superconductor, says Ritesh Agarwal of the University of Pennsylvania.

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.

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