The pharmaceutical company aims to distribute 1 billion shots to people in low and middle income countries, with 400 million doses ready this year.
Taking inspiration from nature’s nanotech that creates the stunning color of butterfly wings, a University of Central Florida researcher is creating technology to make extremely low-power, ultra-high-definition displays and screens that are easier on the eyes.
The new technology creates digital displays that are lit by surrounding light and are more natural looking than current display technologies that rely on energy-intensive bright lights hidden behind screens. The findings were published Wednesday in the journal Proceedings of the National Academy of Sciences.
“This display is more of a natural look than your current computer or smartphone screens,” said Debashis Chanda, an associate professor in UCF’s NanoScience Technology Center and principal investigator of the research. “It is like seeing a portrait on the wall at your house. It doesn’t have that glare or extra light. It is more like looking at the natural world.”
Optics-based technologies such as optical fibers have strongly influenced the age of wired communication. Now they look set to revolutionize wireless communications as well and solve key issues with traditional radio-based approaches by using steerable, narrow infrared beams to send large amounts of data to user devices individually in an energy efficient and secure manner. Researchers at Eindhoven University of Technology are developing new methods for infrared wireless communications that could change how we access data forever.
The modern world is fast becoming a wireless, infrared world! Until now, the majority of wireless communications, both indoor and outdoor, have been radio-based. Although signal modulation techniques can squeeze more data into the limited radio-frequency spectrum and spatial multiplexing can combine multiple data signals into one signal without requiring more spectrum, we are struggling to meet our exponentially growing data demands.
The solution could be optical wireless communications, which use optical wavelengths over a wide spectral range from a few hundred nanometers to a few micrometers that includes visible and infrared radiation. Ton Koonen and researchers at the Institute for Photonic Integration are designing prototype systems with a capacity of more than two thousand times that of current shared WiFi systems. They have presented their work in an invited paper for the themed issue, “Optical Wireless Communication,” of the Royal Society’s Philosophical Transactions A, the oldest ongoing scientific journal in the world. Isaac Newton’s first paper, “New Theory about Light and Colours,” was published in the same journal in 1672.
Panelists: andy gelme, jon oxer, greg adamson, jeremy negal at humanity+ melbourne.
Panelists and audience members weigh in on a variety of topics: technology adoption across demographics, technology used to harvest your data / the rights to your data, technology changing the world — what used to be value choices with regard to technology use and adoption now just seem to be matters of fact, and social implications of technology in general.
While the video is newly produced, the conference was held in 2011.
A giant, sprawling structure almost a mile long has been discovered at the southern tip of Mexico, with researchers saying it may represent the oldest and largest monument of the ancient Maya civilisation ever found.
The site, called Aguada Fénix, is located in the state of Tabasco, at the base of the Gulf of Mexico. It’s so vast for its age, the find is making archaeologists recalibrate their timelines on the architectural capabilities of the mysterious Maya.
Before now, the Maya site of Ceibal (aka Seibal) was thought to be the oldest ceremonial centre, dating back to around 950 BCE.
The nat-2 vegan shoe is made from ‘mushroom leather,’ cork, natural rubber and recycled bottles.
Nat-2.
What is free will? And what are the key elements involved? We provide our own opinions on these questions in this article…
#AI #philosophy #neuroscience #technology
It turns out that you don’t need a computer to create an artificial intelligence. In fact, you don’t even need electricity.
In an extraordinary bit of left-field research, scientists from the University of Wisconsin–Madison have found a way to create artificially intelligent glass that can recognize images without any need for sensors, circuits, or even a power source — and it could one day save your phone’s battery life.
“We’re always thinking about how we provide vision for machines in the future, and imagining application specific, mission-driven technologies,” researcher Zongfu Yu said in a press release. “This changes almost everything about how we design machine vision.”
Polarization, the direction in which light vibrates, is invisible to the human eye. Yet, so much of our optical world relies on the control and manipulation of this hidden quality of light.
Materials that can manipulate the polarization of light —known as birefringent materials—are used in everything from digital alarm clocks to medical diagnostics, communications and astronomy.
Just as light’s polarization can vibrate along a straight line or an ellipse, materials can also be linearly or elliptically birefringent. Today, most birefringent materials are intrinsically linear, meaning they can only manipulate the polarization of light in a limited way. If you want to achieve broad polarization manipulation, you need to stack multiple birefringent materials on top of one another, making these devices bulky and inefficient.