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Apr 1, 2024
8 million UK jobs at risk from AI
Posted by Will Fox in categories: economics, employment, mobile phones, robotics/AI
A new report warns of potentially major disruption to UK employment from the coming wave of AI. An estimated 11% of tasks are already exposed to current AI, a figure that could rise to 59% during a second wave. But there could also be opportunities for economic growth.
From the discovery and use of fire in the Stone Age, through to the handheld smartphones of today, technology has improved our living standards and is the foundation of modern society. Yet unmanaged technological change comes with risks and disruptions. The current wave of technology including generative AI – described by some as the “Fourth Industrial Revolution” – promises transformative benefits, while at the same time bringing potential disruption through its impact on wage inequality, wealth inequality, and job displacement.
It was only a matter of time.
Reddit shares are cratering right now, plunging almost 25 percent in just two days, as CNBC reports.
The social media company went public last week at an IPO price of $34, and initially rallied to around $65.
Apr 1, 2024
Paper page — Snap-it, Tap-it, Splat-it: Tactile-Informed 3D Gaussian Splatting for Reconstructing Challenging Surfaces
Posted by Cecile G. Tamura in category: futurism
Snap-it, Tap-it, Splat-it.
Tactile-informed 3D gaussian splatting for reconstructing challenging surfaces.
Touch and vision go hand in hand, mutually enhancing our ability to understand the world.
Apr 1, 2024
The Power of Vitamin D: From Osteoporosis to Cancer
Posted by Raphael Ramos in category: biotech/medical
Japanese researchers have uncovered the mechanism behind vitamin D’s bone-strengthening effects. Its potential impact on cancer is also becoming apparent. We explore the power of Vitamin D.
Apr 1, 2024
Nuclear Physics from Particle Physics
Posted by Saúl Morales Rodriguéz in category: particle physics
A new theoretical analysis connects the results of high-energy particle experiments at the Large Hadron Collider with three-proton correlations inside nuclei.
Apr 1, 2024
Metamaterials for Analog Optical Computing
Posted by Saúl Morales Rodriguéz in categories: computing, materials
Novel metamaterial-based architectures offer a promising platform for building mass-producible, reprogrammable schemes that perform computing tasks with light.
Apr 1, 2024
One Ring to Measure Blood-Glucose Level
Posted by Saúl Morales Rodriguéz in category: biotech/medical
A proposed ring-shaped device could measure the concentration of glucose in a person’s blood to an accuracy sufficient to make it clinically useful.
Apr 1, 2024
A New Source for Quantum Light
Posted by Saúl Morales Rodriguéz in categories: computing, encryption, quantum physics
A new device consisting of a semiconductor ring produces pairs of entangled photons that could be used in a photonic quantum processor.
Quantum light sources produce entangled pairs of photons that can be used in quantum computing and cryptography. A new experiment has demonstrated a quantum light source made from the semiconductor gallium nitride. This material provides a versatile platform for device fabrication, having previously been used for on-chip lasers, detectors, and waveguides. Combined with these other optical components, the new quantum light source opens up the potential to construct a complex quantum circuit, such as a photonic quantum processor, on a single chip.
Quantum optics is a rapidly advancing field, with many experiments using photons to carry quantum information and perform quantum computations. However, for optical systems to compete with other quantum information technologies, quantum-optics devices will need to be shrunk from tabletop size to microchip size. An important step in this transformation is the development of quantum light generation on a semiconductor chip. Several research teams have managed this feat using materials such as gallium aluminum arsenide, indium phosphide, and silicon carbide. And yet a fully integrated photonic circuit will require a range of components in addition to quantum light sources.
Apr 1, 2024
Levitated Nanoresonator Breaks Quality-Factor Record
Posted by Saúl Morales Rodriguéz in categories: nanotechnology, particle physics, quantum physics
A nanoresonator trapped in ultrahigh vacuum features an exceptionally high quality factor, showing promise for applications in force sensors and macroscopic tests of quantum mechanics.
Nanomechanical oscillators could be used to build ultrasensitive sensors and to test macroscopic quantum phenomena. Key to these applications is a high quality factor (Q), a measure of how many oscillation cycles can be completed before the oscillator energy is dissipated. So far, clamped-membrane nanoresonators achieved a Q of about 1010, which was limited by interactions with the environment. Now a team led by Tracy Northup at the University of Innsbruck, Austria, reports a levitated oscillator—a floating particle oscillating in a trap—competitive with the best clamped ones [1]. The scheme offers potential for order-of-magnitude improvements, the researchers say.
Theorists have long predicted that levitated oscillators, by eliminating clamping-related losses, could reach a Q as large as 1012. Until now, however, the best levitated schemes, based on optically trapped nanoparticles, achieved a Q of only 108. To further boost Q, the Innsbruck researchers devised a scheme that mitigated two important dissipation mechanisms. First, they replaced the optical trap with a Paul trap, one that confines a charged particle using time-varying electric fields instead of lasers. This approach eliminates the dissipation associated with light scattering from the trapped particle. Second, they trapped the particle in ultrahigh vacuum, where the nanoparticle collides with only about one gas molecule in each oscillation cycle.