Lifeboat Foundation

An unusual SpaceX launch will carry several startups’ satellites, some of which will jockey to provide dirt-cheap internet for earthbound IoT sensors.

New pathogens emerge all the time. It’s becoming easier for small groups to create weaponized diseases. Bill Gates says a small group could build a deadlier form of smallpox in a lab. And people are always hopping on planes, making it possible for a disease to reach a new continent in a few hours.

From replacing basic protein sources to high-tech gourmet wizardry, we examine the culinary future.

Jewellery and grooming items found during summer excavation in Lincolnshire.

Electrical engineers in the accelerator physics group at TU Darmstadt have developed a design for a laser-driven electron accelerator so small it could be produced on a silicon chip. It would be inexpensive and with multiple applications. The design, which has been published in Physical Review Letters, is now being realised as part of an international collaboration.

IMAGE: The driving laser field (red) ‘shakes’ electrons in graphene at ultrashort time scales, shown as violet and blue waves. A second laser pulse (green) can control this wave and thus determine the direction of current. (Image credit: FAU/Christian Heide)

Being able to control electronic systems using light waves instead of voltage signals is the dream of physicists all over the world. The advantage is that electromagnetic light waves oscillate at petaherz frequency. This means that computers in the future could operate at speeds a million times faster than those of today. Scientists at Friedrich-Alexander University (FAU; Erlangen-Nurenberg, Germany) have now come one step closer to achieving this goal as they have succeeded in using ultra-short laser impulses to precisely control electrons in graphene. The scientists published their results in Physical Review Letters.

Current control in electronics that is one million times faster than in today’s systems is a dream for many. Ultimately, current control is one of the most important components as it is responsible for data and signal transmission. Controlling the flow of electrons using light waves instead of voltage signals, as is now the case, could make this dream a reality. However, up to now, it has been difficult to control the flow of electrons in metals as metals reflect light waves and the electrons inside them cannot be influenced by these light waves.

Continue reading “Ultrafast laser pulses control electrons in graphene, making ultrafast computing possible” »

Ever since 2014, Italy-based Youbionic, which was founded by Federico Ciccarese and specializes in robotics and bionics, has been working on its 3D printed, robot-controlled, bionic prosthetic hand. The company started taking pre-orders for the bionic prosthetic two years ago, and has since been making improvements and updates to the original model, even coming out with a 3D printed double hand device for the augmented human. Now, Youbionic has released its latest bionic product – the Youbionic One.

Continue reading “Youbionic Combines 3D Printed Bionic Arms with SpotMini the Nightmare Robotic Dog” »

Grassroots efforts are bringing broadband connections to small communities. Maybe this is just the beginning of their influence over connectivity.

Volvo is about to launch its first-ever commercial operation using its driverless truck technology. A deal with a Norwegian mining firm will see six of its autonomous vehicles carry limestone between the mine and a port in an operation aimed at boosting productivity and reliability, as well as safety.