Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog – Page 3

A study led by Northeastern University professor Jonathan Peelle with researchers from across the globe has confirmed that people’s ability to detect background sounds varies from person to person, and is influenced by the noise that came before the sounds.

Peelle’s large-scale replication of a 10-year-old study involved 25 labs across 10 countries and included 149 participants. The findings are published in the journal Royal Society Open Science.

About a decade ago, a suggested that some people are better at picking out background sounds than others, and that this ability depends on the surrounding noise. But the study’s findings were based on data from just five participants, each completing a five-hour task.

Read more | >

Co-packaged optics (CPO) technology can integrate photonic integrated circuits (PICs) with electronic integrated circuits (EICs) like CPUs and GPUs on a single platform. This advanced technology has immense potential to improve data transmission efficiency within data centers and high-performance computing environments. CPO systems require a laser source for operation, which can be either integrated directly into the silicon photonic chips (integrated laser sources) or provided externally.

While integrated laser sources allow for dense CPO integration, ensuring consistent reliability can be challenging, which may affect overall system robustness. The use of external laser sources (ELS) in CPO, in comparison, offers improved system reliability.

Single-mode waveguides are crucial components of many PICs, where they help couple light from an external laser to the PIC or distribute optical signals within the system. They are cost-effective and mechanically flexible, besides being highly compatible with electrical circuits. Therefore, they show significant potential for use in CPO systems utilizing ELS.

Read more | >

A research team led by Prof. Yong Gaochan from the Institute of Modern Physics (IMP) of the Chinese Academy of Sciences has proposed a novel experimental method to probe the hyperon potential, offering new insights into resolving the longstanding “hyperon puzzle” in neutron stars. These findings were published in Physics Letters B and Physical Review C.

According to conventional theories, the extreme densities within neutron stars lead to the production of hyperons containing strange quarks (e.g., Λ particles). These hyperons significantly soften the equation of state (EoS) and reduce the maximum mass of neutron stars. However, have discovered neutron stars with masses approaching or even exceeding twice that of the sun, contradicting theoretical predictions.

Hyperon potential refers to the interaction potential between a hyperon and a nucleon. Aiming to resolve the “neutron star hyperon puzzle,” the study of hyperon potential has emerged as a frontier topic in the interdisciplinary field of nuclear and astrophysics. Currently, it is believed that if hyperon potentials exhibit stronger repulsion at high densities, they could counteract the softening effect of the EoS, thereby allowing massive to exist.

Read more | >

Brazilian researchers found that boosting the synthesis of hevin, a glycoprotein naturally secreted by astrocytes, led to enhanced neuronal connectivity in rodents. In Brazil, researchers from the Federal University of Rio de Janeiro (UFRJ), along with collaborators from the University of São Pau

Read more | >

Wuhan, China’s inland metropolis, is paving the way for a nationwide rollout of “embodied” artificial intelligence meant to fast-track scientific discovery, optimize production, streamline commerce, and facilitate state supervision of social activities. Grounded in real-world data, the AI grows smarter, offering a pathway to artificial “general” intelligence that will reinforce state ideology and boost economic goals. This report documents the genesis of Wuhan’s AGI initiative and its multifaceted deployment.

Read more | >

A new bio-based hot glue derived from a byproduct of the wood pulp industry beats traditional epoxy resins and commercial hot-melt glues in terms of adhesive performance.

Researchers from Beijing Forestry University developed a hot-melt adhesive derived from xylan—a complex sugar found in plant cell walls—that can be applied in a molten state and reused over 10 times without any loss of its original strength.

The synthesis strategy was reported in Nature Sustainability.

Read more | >

Artificial intelligence (A.I.) has recently become a buzzword in so many aspects of our lives, but it has been used to some degree in health care for a while. One area of health care where A.I. has made significant strides is the diagnosis and treatment of prostate cancer.

“We are just at the tip of the iceberg of utilizing A.I. for prostate cancer,” says Dr. David D. Yang, a radiation oncologist with Harvard-affiliated Brigham and Women’s Hospital and Dana-Farber Cancer Institute. “So far, it has been shown to help improve the care for men with prostate cancer in limited, yet effective ways.”

Read more | >