Astronomers have calculated the odds that, sometime during the next 50 years, a supernova occurring in our home galaxy will be visible from Earth. The good news: They’ve calculated the odds to be nearly 100% that such a supernova would be visible to telescopes in the form of infrared radiation. The bad news: The odds are much lower that the shining stellar spectacle would be visible to the naked eye in the nighttime sky.
Commercial uses for ultraviolet (UV) light are growing, and now a new kind of light-emitting...
They're not exactly the peanut butter and jelly of semiconductors, but when you put them...
New technology under development at Ohio State Univ. is paving the way for low-cost electronic...
The same material that formed the first primitive transistors more than 60 years ago can be modified in a new way to advance future electronics, according to a new study. Chemists at The Ohio State University have developed the technology for making a one-atom-thick sheet of germanium, and found that it conducts electrons more than ten times faster than silicon and five times faster than conventional germanium.
When renowned explorer Richard E. Byrd returned from the first-ever flight to the North Pole in 1926, he sparked a controversy that remains today: Did he actually reach the pole? Studying supercomputer simulations of atmospheric conditions on the day of the flight and double-checking Byrd’s navigation techniques, a researcher at Ohio State University has determined that Byrd neared the Pole, but did not reach it.
A once-promising approach for using next-generation, ultra-intense lasers to help deliver commercially viable fusion energy has been brought into serious question by new experimental results and first-of-a-kind simulations of laser-plasma interaction. So-called fast ignition, this process involves a long-discussed possibility of using a hollow cone to help focus laser energy on the pellet core to induce fusion. Unfortunately, these cones appear to fail in that mission.
Scientists have shown that an enzyme in corn responsible for reading information from DNA can prompt unexpected changes in gene activity—an example of epigenetics that breaks accepted rules of genetic behavior. Though some evidence has suggested that epigenetic changes can bypass DNA’s influence to carry on from one generation to the next, this is the first study to show that this epigenetic heritability can be subject to selective breeding.
New research shows that a tiny piece of RNA has an essential role in ensuring that embryonic tissue segments form properly. The study, conducted in chicken embryos, determined that this piece of RNA regulates cyclical gene activity that defines the timing of the formation of tissue segments that later become muscle and vertebrae.
A new form of clean coal technology reached an important milestone recently, with the successful operation of a research-scale combustion system at Ohio State University. The technology is now ready for testing at a larger scale. For 203 continuous hours, the Ohio State combustion unit produced heat from coal while capturing 99% of the carbon dioxide produced in the reaction.
A new study of the batteries commonly used in hybrid and electric-only cars has revealed an unexpected factor that could limit the performance of batteries currently on the road. Researchers led by Ohio State University engineers examined used car batteries and discovered that over time lithium accumulates beyond the battery electrodes—in the "current collector," a sheet of copper which facilitates electron transfer between the electrodes and the car's electrical system.
Researchers have made a genetic analysis of the microbes living deep inside a deposit of Marcellus Shale at a hydraulic fracturing. They expected to find many tough microbes, such as single-celled archaea, suited to extreme environments. Instead, they found very few genetic biomarkers for archaea, and many more for species that derive from bacteria.They also found that the populations of microbes changed dramatically over a short period of time.
A new way to visualize single-cell activity in living zebrafish embryos has allowed scientists to clarify how cells line up in the right place at the right time to receive signals about the next phase of their life. The findings increase understanding of cyclical behaviors in all types of cells at many developmental stages.
After carefully studying the structure of butterfly wings and rice leaves, Ohio State University engineers designed a coated plastic surface resembling a butterfly wing’s texture. Butterflies in the wild need to have bright, clean wings for reproduction and flying, and the surface created by engineers was reportedly easier to keep free of dust particles than a flat surface. The finding could inform designs for a variety of surfaces in various industries.
Researchers have discovered why plants and animals had a hard time recovering from the largest mass extinction in Earth’s history 250 million years ago. The reason: global warming. Because of environmental consequences of rising temperatures, those species that survived the extinction didn’t fully recover for 5 million years.
Some RNA molecules spend time in a restful state akin to hibernation rather than automatically carrying out their established job of delivering protein-building instructions in cells. This restful period appears to be a programmed step for RNA produced by certain types of genes. Protein production in cells is not as clear-cut as biology textbooks suggest, scientists say.
Algae are high on the genetic engineering agenda as a potential source for biofuel, and they should be subjected to independent studies of any environmental risks that could be linked to cultivating algae for this purpose, two prominent researchers say. The researchers argue that ecology experts should be among scientists given independent authority and adequate funding to explore any potential unintended consequences of this technological pursuit.
Researchers have found a way to use GPS to measure short-term changes in the rate of ice loss on Greenland—and reveal a surprising link between the ice and the atmosphere above it. The study hints at the potential for GPS to detect many consequences of climate change, including ice loss, the uplift of bedrock, changes in air pressure—and perhaps even sea level rise.
Chronic exposure to dim light at night can lead to depressive symptoms in rodents—but these negative effects can be reversed simply by returning to a standard light-dark cycle, a new study suggests. These findings add to the growing evidence that suggest chronic exposure to artificial light at night may play some role in the rising rates of depression in humans during the past 50 years.
Researchers who are studying a new magnetic effect that converts heat to electricity have discovered how to amplify it a thousand times over—a first step in making the technology more practical.
A biomedical informatics researcher who tracks dangerous viruses as they spread around the globe has restructured his innovative tracking software to promote even wider use of the program around the world.
Two recent studies that tested two ways to protect autoworkers from injury found letting autoworkers sit while they reach into a car's interior to perform assembly could help prevent shoulder and back strain. But a possibly better overall solution the researchers suggested might be to tilt the entire car so that workers can stand up.
Letting autoworkers sit while they reach into a car's interior could help prevent shoulder and back strain—but another solution might be to tilt the entire car so that workers can stand up. That's the finding of two recent studies, which tested two ways to protect autoworkers from injury.
Surveying the wide range of parallel system architectures offered in the supercomputer market, an Ohio state University researcher recently sought to establish some side-by-side performance comparisons.
A new method to reveal the structure of proteins could help researchers understand biological molecules—both those involved in causing disease and those performing critical functions in healthy cells. The new solid-state NMR method uses paramagnetic tags to help visualize the shape of protein molecules.
Using a new ultrafast camera, researchers have recorded the first real-time image of two atoms vibrating in a molecule. Key to the experiment is the researchers' use of the energy of a molecule's own electron as a kind of "flash bulb" to illuminate the molecular motion.
Every year, more and stronger chemicals are introduced into our bodies to fight disease, but have little knowledge of how they impact some of our most important cells. Bioengineers at Rensselaer Polytechnic Institute and the University of California, Berkeley will soon launch an effort to find out whether stem cells react to chemicals in fundamentally different ways than other cells.
Researchers are beginning their analysis of what are probably the first successful ice cores drilled to bedrock from a glacier in the eastern European Alps. With luck, that analysis will yield a record of past climate and environmental changes in the region for several centuries, and perhaps even covering the last 1,000 years.
A new study has identified a gene mutation that researchers estimate dates back to 11,600 B.C., making it the second oldest human disease mutation yet discovered. Researchers say that although the mutation, which causes a rare vitamin deficiency, is found in vastly different ethnic populations, it originated in a single, prehistoric individual and was passed down to that individual's descendents.
- Page 1