Connecting Research and Experts with Journalists

• share
• favorite_border

A critical concern for commercial farmers is to have good and synchronized tree growth. The problem in mild winter climates is that plants do not receive enough chilling, and growth resumption becomes spread out with some buds even failing to grow. Now scientists from Jazan University have discovered an effective new way to control the dormancy of grapes and other fruiting plants, by using high-tech plasmas to wake them from their winter's slumber. They will present the work next week at the APS 71st Annual Gaseous Electronics Conference and 60th Annual meeting of the APS Division of Plasma Physics, Nov. 5-9.

• share
• favorite_border

Many of today’s methods of purifying water rely on filters and chemicals that need regular replenishing or maintenance. Millions of people, however, live in areas with limited access to such materials, leading the research community to explore new options of purifying water in using plasmas. Many plasma-based approaches are expensive, but a new class of plasma devices may change that. Researchers at the have been studying a new type of plasma generator for water purification. They will present the research next week at the APS 71st Annual Gaseous Electronics Conference and the 60th Annual meeting of the APS Division of Plasma Physics, Nov. 5-9.

• share
• favorite_border

A whiff of plasma, when combined with a nanosized catalyst, can cause chemical reactions to proceed faster, more selectively, at lower temperatures, or at lower voltages than without plasma. Using computer modeling, researchers investigated the interactions between plasmas and metal catalysts embedded into ceramic beads in a packed bed reactor. They discovered that together, the metals, beads and gas create plasma that intensifies electric fields and locally heats the catalyst, which can then accelerate reactions. They will present at the APS 71st Annual Gaseous Electronics Conference and 60th Annual meeting of the APS Division of Plasma Physics, Nov. 5-9.

• share
• favorite_border

Landfill gases contain numerous contaminants, but one group has demonstrated a promising new application of plasma technology capable of removing such compounds. Researchers have demonstrated an experimental plasma device capable of cleaning gas samples of D4, one of the most common siloxanes. Drawing on a technique for creating plasma called dielectric barrier discharge, the group was able to significantly reduce the amount of D4 samples after treating it with a helium-based plasma. They will present at the APS 71st Annual Gaseous Electronics Conference and 60th Annual meeting of the APS Division of Plasma Physics, Nov. 5-9.

• share
• favorite_border

For best chances of in vitro fertilization success, the most motile sperm are chosen from semen. But current methods of sperm selection are inefficient and can cause fragmentation of the precious DNA carried in sperm heads. Afrouz Ataei has developed an alternative mechanism to sort sperm, which avoids genetic damage while also being faster and more cost-effective. Ataei will describe the device at the 2019 APS March Meeting in Boston.

• share
• favorite_border

Knitting may be an ancient manufacturing method, but Elisabetta Matsumoto believes that understanding how different stitch types determine shape and mechanical strength will be invaluable for designing materials for future technologies, and a more detailed understanding of the knitting “code” could benefit manufacturers around the world. Members of the Matsumoto group are delving through the surprisingly complex mathematics that underlies tangles of yarn -- work Matsumoto will describe at the 2019 APS March Meeting.

• share
• favorite_border

Mathematician Shankar Venkataramani’s research group recently discovered a lot of new, powerful geometries involved in frilly surfaces, which he will describe at the 2019 APS March Meeting. For mathematicians, frilly is plain language for an inflected nonsmooth surface -- one that changes the direction in which it bends, such as with kale or coral. Venkataramani’s group developed the mathematics to describe these surfaces, and the combination of new geometry insights and age-old slugs might just be the right combination for a new generation of flexible, energy-efficient soft-bodied robots.

• share
• favorite_border

Medical practitioners commonly treat organs in isolation, but Boston University physicist Plamen Ivanov wants to usher in a new paradigm. As he will describe at the 2019 APS March Meeting, “It’s time to view health and disease not only from the perspective of individual organs but from the point of view of their integration,” he said. “We need to show how the different systems communicate with each other and stay in sync.” Ivanov calls the field he’s pioneering “network physiology.”

• share
• favorite_border

Researchers have analyzed the real-time effect of a large-scale hack on automobiles in a major urban environment. Using percolation theory, they analyzed how a large, disseminated hack on automobiles would affect traffic flow in New York City, and they found that it could create citywide gridlock. However, based on these findings the team also developed a risk-mitigation strategy to prevent mass urban disruption -- work they will describe at the 2019 APS March Meeting.

• share
• favorite_border

To investigate how shortfin mako sharks achieve their impressive speeds, researchers tested real sharkskin samples, using digital particle image velocimetry. They discovered that a “passive bristling” capability of the microscopic surface geometry of the shark’s scales controlled flow separation, which causes pressure drag -- the most influential cause of drag on aircraft. The work will be described at the 2019 APS March Meeting, and could lead to new designs to reduce drag on aircraft.