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Nov 23, 2024

Accessing the lesser known nucleon: New neutron measurement can help physicists learn about nucleon structure and spin

Posted by in category: particle physics

Protons and neutrons–known collectively as nucleons–are both the building blocks of matter, but one of these particles has received a bit more attention in certain types of nuclear physics experiments.

Until now. New results published in Physical Review Letters describe a first-time glimpse of the internal structure of the neutron thanks to the development of a special, 10-years-in-the-making detector installed in Experimental Hall B at the U.S. Department of Energy’s Thomas Jefferson National Accelerator Facility.

“We detected the neutron for the first time in this type of reaction, and it’s quite an important result for the study of nucleons,” said Silvia Niccolai, a research director at the French National Centre for Scientific Research (CNRS).

Nov 23, 2024

Prototype lenses can block epileptic-seizure causing wavelengths

Posted by in category: futurism

People with photosensitive epilepsy could benefit from a prototype pair of glasses with lenses that block out wavelengths that are known to cause seizures in some people.

In a study published in Cell Reports Physical Science, researchers from the University of Glasgow and University of Birmingham have developed a prototype of a liquid crystal lens that they believe could help photosensitive epilepsy sufferers.

The are controlled by very small changes in that can be built into the lens, and when activated can block more than 98% of light in the 660–720nm wavelength range, known to affect the greatest number of people suffering from photosensitive epilepsy.

Nov 23, 2024

Improved ultrasound technique produces previously unattainable images inside live cells

Posted by in categories: biotech/medical, engineering

A ultrasound technique from the University of Nottingham will allow the production of sharper images inside live cells without causing damage at resolutions that were previously unattainable.

The project, from the Faculty of Engineering’s Optics and Photonics research group, explores a way to look deep inside tiny structures, such as single cells, that regular light-based microscopes cannot, and without harming them. The work is published in the journal Photoacoustics.

This technique has been used to measure the stiffness of cancer cells at a single-cell level, which could allow for new methods of early cancer diagnosis to be developed.

Nov 23, 2024

Realization of High-Fidelity CZ Gate Based on a Double-Transmon Coupler

Posted by in categories: computing, quantum physics

Achieving the full potential of quantum computing will require the development of quantum gates—circuits that carry out fundamental operations—with much higher fidelity than is currently available. An average gate fidelity surpassing 99.9%, for example, would enable not only efficient fault-tolerant quantum computing with error correction but also effective mitigation of errors in current noisy intermediate-scale quantum devices. In this work, we report on a two-qubit gate that achieves that milestone and sustains it for 12 h.

Superconducting qubits, with their ease of scalability and controllability, are prime candidates for building quantum processors. One type known as a transmon is renowned for its high coherence and ease of manufacturing and is thus already widely embraced in academia and industry. In general, single-qubit gates need negligible coupling between two transmon qubits, whereas two-qubit gates require a large coupling. This necessitates a coupling mechanism that can be tuned to both nearly zero and a very large value.

Various coupling schemes based on transmons have been shown to address this issue. Our work focuses on an innovative coupler known as the double-transmon coupler (DTC), which has been only theoretically proposed. We report the first experimental realization of the DTC, achieving gate fidelities of 99.9% for two-qubit gates and 99.98% for single-qubit gates, demonstrated by using two transmons coupled by the DTC.

Nov 22, 2024

Human Cell Atlas maps 100 million cells, advances medical research

Posted by in category: biotech/medical

The Human Cell Atlas aims to map the location, identity, and function of every cell in the human body by 2026.


Scientists with the Human Cell Atlas have profiled 100 million cells from over 10,000 people worldwide, aiming to map the human body down to the cellular level.

Nov 22, 2024

Repair Proteins Collaborate in “Hubs” to Repair DNA Damage

Posted by in categories: biotech/medical, chemistry

DNA can be damaged by normal cellular processes as well as external factors such as UV radiation and chemicals. Such damage can lead to breaks in the DNA strand. If DNA damage is not properly repaired, mutations can occur, which may result in diseases like cancer. Cells use repair systems to fix this damage, with specialized proteins locating and binding to the damaged regions. Now, researchers from the Kind Group at the Hubrecht Institute have mapped the activity of repair proteins in individual human cells. The study demonstrates how these proteins collaborate in so-called “hubs” to repair DNA damage. These findings may lead to new cancer therapies and other treatments where DNA repair is essential.

The researchers published their findings in Nature Communications in an article titled, “Genome-wide profiling of DNA repair proteins in single cells.”

“Accurate repair of DNA damage is critical for maintenance of genomic integrity and cellular viability,” the researchers wrote. “Because damage occurs non-uniformly across the genome, single-cell resolution is required for proper interrogation, but sensitive detection has remained challenging. Here, we present a comprehensive analysis of repair protein localization in single human cells using DamID and ChIC sequencing techniques.”

Nov 22, 2024

Frontiers: As we age, our immune system’s ability to effectively respond to pathogens declines, a phenomenon known as immunosenescence

Posted by in categories: biotech/medical, life extension, sex

This age-related deterioration affects both innate and adaptive immunity, compromising immune function and leading to chronic inflammation that accelerates aging. Immunosenescence is characterized by alterations in immune cell populations and impaired functionality, resulting in increased susceptibility to infections, diminished vaccine efficacy, and higher prevalence of age-related diseases. Chronic low-grade inflammation further exacerbates these issues, contributing to a decline in overall health and resilience. This review delves into the characteristics of immunosenescence and examines the various intrinsic and extrinsic factors contributing to immune aging and how the hallmarks of aging and cell fates can play a crucial role in this process. Additionally, it discusses the impact of sex, age, social determinants, and gut microbiota health on immune aging, illustrating the complex interplay of these factors in altering immune function. Furthermore, the concept of immune resilience is explored, focusing on the metrics for assessing immune health and identifying strategies to enhance immune function. These strategies include lifestyle interventions such as diet, regular physical activity, stress management, and the use of gerotherapeutics and other approaches. Understanding and mitigating the effects of immunosenescence are crucial for developing interventions that support robust immune responses in aged individuals.

The immune system plays a crucial role in protecting our bodies from harmful pathogens. It is divided into two segments: innate immunity and adaptive immunity. The innate immune system acts as an immediate but non-specific first responder to defend against pathogens, composed of phagocytic and natural killer cells. Besides innate immune cells, another important component of the innate system includes physical barriers like skin and mucous membranes. Meanwhile, adaptive immunity is more specialized and requires time to mount a high-affinity and specific response, relying on anticipatory receptors that recognize pathogen-specific antigens. The adaptive immune response is centered around B and T lymphocytes, which are produced in the bone marrow and thymus, respectively (Farber, 2020; Lam et al., 2024). With age, the ability of our immune system to mount productive and timely responses to pathogens diminishes.

Nov 22, 2024

James Webb Space Telescope unveils surprising ‘Red Monsters’ in the early universe

Posted by in category: space

Returning to those Red Monsters, the new JWST data showed that these galaxies produce stars at about two to three times more efficiently than galaxies in the later universe.

The stellar masses of these three galaxies are so large that they require a stellar-mass conversion efficiency of about 50%, higher than the typical efficiency observed in galaxies today. For example, most galaxies at later times convert only about 20% of their available gas into stars. These findings suggest that the early universe may have had a different set of conditions that allowed for much faster and more efficient galaxy growth.

“Our research is transforming our understanding of early galaxy formation,” Mengyuan Xiao, lead author of the study and a postdoctoral researcher at the UNIGE Faculty of Science, said in the statement.

Nov 22, 2024

Unitary collapse of Schrodinger’s cat state

Posted by in categories: evolution, quantum physics

Unitary collapse of Schrödinger’s cat state https://journals.aps.org/pra/abstract/10.1103/PhysRevA.110.L030202

Schrödinger’s cat, that iconic thought experiment where a cat in a box is both alive and dead until someone peeks.


The authors study a system composed of a single qubit coupled to a soft-mode quantum oscillator. They show that spontaneous unitary evolution of this system create a Schr\ odinger-cat-like state of the oscillator, which is subsequently lost in a sudden process strongly resembling the measurement-induced collapse of wave function.

Nov 22, 2024

AI adoption is surging — but humans still need to be in the loop, say software developers from Meta, Amazon, Nice, and more

Posted by in category: robotics/AI

Developers from Amazon, Meta, and more discuss how AI adoption is changing the industry and which skills developers will need to stay competitive.

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