Category Physics

A soft robotic device powered by popcorn, constructed by researchers in Cornell’s Collective Embodied Intelligence Lab.
Credit: Image courtesy of Cornell University

Cornell University researchers have discovered how to power simple robots with a novel substance that, when heated, can expand more than 10X in size, change its viscosity by a factor of 10 and transition from regular to highly irregular granules with surprising force.

“Popcorn-Driven Robotic Actuators,” a recent paper co-authored by Steven Ceron, mechanical engineering doctoral student, and Kirstin H. Petersen, assistant professor of electrical and computer engineering, examines how popcorn’s unique qualities can power inexpensive robotic devices that grip, expand or change rigidity.

“The goal of our lab is to try to make very...

The network, composed of a series of polymer layers, works using light that travels through it. Each layer is 8 centimeters square. Credit: UCLA Samueli / Ozcan Research Group

The 3D-printed artificial neural network can be used in medicine, robotics and security. Electrical and computer engineers have created a physical artificial neural network that can analyze large volumes of data and identify objects at the actual speed of light. The device was created using a 3D printer.

Numerous devices in everyday life today use computerized cameras to identify objects – think of automated teller machines that can “read” handwritten dollar amounts when you deposit a check, or internet search engines that can quickly match photos to other similar images in their databases...

This is the memristor array situated on a circuit board.
Credit: Mohammed Zidan, Nanoelectronics group, University of Michigan.

A new way of arranging advanced computer components called memristors on a chip could enable them to be used for general computing, which could cut energy consumption by a factor of 100. This would improve performance in low power environments such as smartphones or make for more efficient supercomputers, says a University of Michigan researcher. “Historically, the semiconductor industry has improved performance by making devices faster...

Table 1: θSH: spin Hall angle, δ: conductivity, δSH: spin Hall conductivity. The figures in the bottom row are those achieved in the present study. Remarkably, the spin Hall conductivity, shown in the right-hand column, is two orders of magnitude greater than the previous record. (Image: Pham Nam Hai)

BiSb expands the potential of topological insulators for ultra-low-power electronic devices. Scientists have developed the world’s best-performing pure spin current source made of bismuth-antimony (BiSb) alloys, which they report as the best candidate for the first industrial application of topological insulators...