A rare dual heart and liver transplant gave an 11-year-old girl a new chance at life.
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Unhackable metasurface holograms: Security technology can lock information with light color and distance
A research team led by Professor Junsuk Rho at POSTECH (Pohang University of Science and Technology) has developed a secure hologram platform that operates solely based on the wavelength of light and the spacing between metasurface layers. The technology makes hacking and counterfeiting virtually impossible, and is expected to be widely adopted for security cards, anticounterfeiting, and military communications. The paper is published in the journal Advanced Functional Materials.
With a growing number of hacking incidents and data breaches, the limitations of digital security are becoming increasingly evident. No matter how sophisticated an encryption scheme is, as long as it exists as code, it is difficult to completely eliminate the risk of intrusion. Motivated by this challenge, the team proposed a new approach that uses the physical conditions of light itself as a security key.
At the core of this innovation is the “metasurface,” an ultrathin optical device that arranges microscopic structures to control light. By illuminating a metasurface, a holographic image can be reconstructed in free space. However, conventional holograms have typically been limited in that a single device could store only one piece of information.
A bonobo’s imaginary tea party suggests apes can play pretend
The findings add to a growing body of work suggesting that ape minds can imagine scenarios beyond the “here-and-now,” a skill once thought to be unique to humans. Human children begin playing pretend as early as 12 months old and master the ability to build imaginary worlds by age 3. Many high-level thinking tasks are possible only because we can imagine things that aren’t really there.
The study centered on Kanzi, a remarkable bonobo who could communicate using word-linked symbols called lexigrams. Amalia Bastos, a comparative psychologist at the University of St Andrews in Scotland, first met him in 2023. “We were starstruck by Kanzi,” she says.
During their first meeting, the bonobo used his lexigram-studded board to ask Bastos and a colleague to chase each other. Bastos noticed that even though they only pretended to play, Kanzi still enjoyed watching them. This kick-started a series of make-believe tests that Bastos and Christopher Krupenye, a psychologist at Johns Hopkins University, designed for Kanzi.
In the first of these tests, Kanzi sat at a table with two glasses. An experimenter pretended to pour a glass of “juice” — Kanzi’s tipple of choice — into both cups from a see-through empty jug. The experimenter then poured the nonexistent contents of one cup back into the jug, before asking Kanzi which cup still held the “juice.” Kanzi guessed correctly 68 percent of the time, significantly above chance, the researchers report.
The guesses, Bastos says, may not have been definitive evidence of Kanzi’s internal imagination. “Kanzi is an old bonobo. Maybe his vision isn’t very good. Maybe he thinks that there’s real juice in these things,” she says.
The researchers retested Kanzi to see if he could identify real from fake juice. They presented him with two cups: one containing orange juice and an empty one that they filled with pretend juice. When asked which cup he wanted, Kanzi picked the real juice nearly 80 percent of the time, suggesting he had little issue identifying his reward. A third test that mimicked the first, but with pretend grapes rather than juice, again suggested Kanzi understood where pretend food was located.
Eyes may be a window into early Alzheimer’s detection
The eyes—specifically, the outer area of the retina—may provide a window into early detection of Alzheimer’s disease (AD) long before irreversible brain damage has occurred, according to new research from Houston Methodist. This discovery could dramatically change how the disease is diagnosed, monitored and treated.
“Retinal Müller glia alterations and their impact on ocular glymphatic clearance in an Alzheimer’s disease mouse model,” is online and will appear in an upcoming edition of the Journal of Alzheimer’s Disease. Led by Stephen Wong, Ph.D., the John S. Dunn Presidential Distinguished Chair in Biomedical Engineering at Houston Methodist and director of T. T. & W. F. Chao Center for BRAIN, the study reveals how the peripheral retina (versus the central retina) could be a window into early diagnosis of AD.
“The eyes are indeed a window into the brain, but our study reveals that we have been looking at the wrong part of the window,” Wong said. “While most clinical eye exams focus on the central retina, the most critical early indicators of AD appear to be hidden at the periphery of the eye. By identifying these retinal changes that occur before the brain’s ‘plumbing’ system fails, doctors may eventually be able to use routine eye exams to catch and treat the disease years before memory loss begins.”
Radiologic Biomarkers in Multiple Sclerosis: Improving Detection and Diagnosis
MRI is central to modern MultipleSclerosis diagnosis.
A review article by Drs. Elfasi and Fagundo highlights radiologic lbiomarkers in the 2024 McDonald criteria—including the central vein sign, paramagnetic rim lesions, cortical lesions, and optic nerve imaging.
https://ow.ly/cZrC50Yj69O National Multiple Sclerosis Society ACTRIMS American Academy of Neurology (AAN) Radiological Society of North America (RSNA) University of South Florida.
Imaging biomarkers, including cortical lesions, the central vein sign, and paramagnetic rim lesions, allow for more timely and accurate diagnosis of multiple sclerosis.
Scientists Believe Quantum Computers AreAbout to Cross a Major Line
We began this inquiry by looking at the mismatch between our computers and our brains. We realized that we were trying to run biological software on the wrong hardware. That era is ending. As we refine these quantum processors, we are finally building a mirror that is accurate enough to reflect the true nature of the mind. We are not just building faster computers. We are building a vessel that can hold the physics of thought.
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Timestamps:
0:00 Quantum Computers.
1:18 The Scale Problem.
4:40 The Thermodynamic Wall.
8:11 Quantum Mechanics in Wetware.
13:58 The \