The new semiconductor is expected to have some important applications in things like transportation and security systems in both industry and the public.
Korean researchers have developed a new “intelligent sensor” semiconductor that works similarly to the optic nerves of insects.
A team of researchers from Korea have developed an insect brain-inspired semiconductor that can be used as a fast, low power motion detector.
Say cheese, get gold.
Many electronic devices, such as smartphones, computers, and televisions, contain small amounts of gold in components like connectors, circuit boards, and integrated circuits, but they are usually considered electronic waste.
Uncover the innovative use of whey protein to extract gold from electronic waste. A sustainable and efficient solution for reducing e-waste.
Researchers from China used different spectra of light to maximize data transmission in various modes and setting up interoperability between them.
A new light-based communication network developed through a research collaboration between Nanjing University of Posts and Telecommunications and Suzhou Lighting Chip Monolithic Optoelectronics Technology company in China makes seamless connectivity on land, in the sea, and in the air a reality.
While urban landscapes may enjoy the advantages of wireless 5G internet, many pockets worldwide still need broadband. Even as Elon Musk wants to make space-based ultra-fast internet connections the norm, the services cannot be delivered for undersea activities where research and exploration demand them.
Enhancing quantum features compensates for environmental losses, amplifying particle interactions, achieving entanglement at higher scales.
One of the oldest topics of contemporary science is where to draw the line between classical and quantum physics.
Abstract
The ability to engineer cavity-mediated interactions has emerged as a powerful tool for the generation of non-local correlations and the investigation of non-equilibrium phenomena in many-body systems. Levitated optomechanical systems have recently entered the multi-particle regime, with promise for using arrays of massive strongly coupled oscillators for exploring complex interacting systems and sensing. Here, by combining advances in multi-particle optical levitation and cavity-based quantum control, we demonstrate, for the first time, programmable cavity-mediated interactions between nanoparticles in a vacuum. The interaction is mediated by photons scattered by spatially separated particles in a cavity, resulting in strong coupling (Gzz/Ωz = 0.238 ± 0.005) that does not decay with distance within the cavity mode volume. We investigate the scaling of the interaction strength with cavity detuning and inter-particle separation and demonstrate the tunability of interactions between different mechanical modes. Our work paves the way towards exploring many-body effects in nanoparticle arrays with programmable cavity-mediated interactions, generating entanglement of motion, and using interacting particle arrays for optomechanical sensing.
Punyo is a soft robot designed to improve whole-body manipulation research by employing its arms and chest.
Toyota seems to be diving into more than just cars.
Toyota developed Punyo, a soft robot with capabilities that amplify, rather than replace people, helps lift heavy objects or move furniture.
The key revelation from this study is the dual impact of the passivation process.
MIT’s research is set to make solar panels lighter, cheaper, and more efficient by addressing key challenges associated with perovskite solar panels.
Check out Sanctuary AI’s Pheonix humanoid robot sorting items with grace and speed.
Following hot on the heels of Tesla’s Optimus and Figure 1 videos released recently, another humanoid robotics firm, Sanctuary AI, released the latest developments in its bot–the Pheonix.
Sanctuary AI’s Pheonix can now move things around a table just like a human being. Check it out for yourself.
The UNI-ONE works with two HOT Drive Systems and can travel at 3.7 miles an hour while delivering an unmatched XR experience.
Thin-layer films, due to their compatibility with plastic substrates, could serve modern high-frequency tech applications effectively. Bismuth thin films display a non-linear Hall effect, potentially enabling regulated terahertz signal use on electronic chips, hinting at tech applications.
A groundbreaking body of work led by Monash University physicists has opened a new pathway for understanding the universe’s fundamental physics.
The work, featured in an international review published in Progress in Particle and Nuclear Physics, follows nearly a decade of work by scientists at the School of Physics and Astronomy in the Faculty of Science at Monash University.
Gravitational waves have only recently been detected for the first time, offering an exciting opportunity to delve into the mysteries of particle physics through first-order phase transitions (FOPTs) in the early cosmos.
