Saúl Rodriguéz

15 hours ago | lifeboat.com | Saúl Rodriguéz

Using the Australian Square Kilometer Array Pathfinder (ASKAP), astronomers have discovered 15 new giant radio galaxies with physical sizes exceeding 3 million light years. The finding was reported in a research paper published April 9 on the arXiv preprint server. The so-called giant radio galaxies (GRGs) have an overall projected linear length exceeding at least 2.3 million light years.

15 hours ago | lifeboat.com | Saúl Rodriguéz

The detection of dark matter, an elusive form of matter believed to account for most of the universe’s mass, remains a long-standing goal within the physics research community. As this type of matter can only emit, reflect or absorb light very weakly, it cannot be observed using conventional telescopes and experimental methods. Physicists have thus been trying to predict what it may consist of and proposing alternative approaches that could enable its detection.

15 hours ago | lifeboat.com | Saúl Rodriguéz

Coordinating complicated interactive systems, whether it’s the different modes of transportation in a city or the various components that must work together to make an effective and efficient robot, is an increasingly important subject for software designers to tackle. Now, researchers at MIT have developed an entirely new way of approaching these complex problems, using simple diagrams as a tool to reveal better approaches to software optimization in deep-learning models.

15 hours ago | lifeboat.com | Saúl Rodriguéz

A U of A engineering researcher is using sunlight and semiconductor catalysts to produce hydrogen by splitting apart water molecules into their constituent elements.

15 hours ago | lifeboat.com | Saúl Rodriguéz

Advances in high-throughput phenotyping (HTP) platforms together with genotyping technologies have revolutionized breeding of varieties with desired traits relying on genomic prediction. Yet, we lack an understanding of the expression of multiple traits at different time points across the entire growth period of the plant. A research team, including IPK Leibniz Institute and the Max Planck Institute of Molecular Plant Physiology, has developed a computational approach to solve this problem.