Tag Archives: radiation

Sampling the Pacific for Signs of Fukushima

By Guest PostApril 6, 2012Environmentcesium 134, chiba peninsula, coast of japan, earthquake, fukushima, fukushima dai ichi, gulf stream, hawaii, irina rypina, Japan, ken buesseler, kuroshio, marine ecosystem, marine environment, marine organism, nicholas fisher, nuclear power plant, ocean, ocean current, oyashio, plankton, potassium 40, radiation, radioactive isotope, radioactive substance, radioactivity, radionuclides, reactor, seafloor sediment, steven jayne, tsunami, whoi

An international research team is reporting the results of a research cruise they organized to study the amount, spread, and impacts of radiation released into the ocean from the tsunami-crippled reactors in Fukushima, Japan. The group of 17 researchers and technicians from eight institutions spent 15 days at sea in June 2011 studying ocean currents, and sampling water and marine organisms up to the edge of the exclusion zone around the reactors.

Led by Ken Buesseler, a senior scientist and marine chemist at the Woods Hole Oceanographic Institution (WHOI), the team found that the concentration of several key radioactive substances, or radionuclides, were elevated but varied widely across the study area, reflecting the complex nature of the marine environment. In addition, although levels of radioactivity in marine life sampled during the cruise were well below levels of concern for humans and the organisms themselves, the researchers leave open the question of whether radioactive materials are accumulating on the seafloor sediments and, if so, whether these might pose a long-term threat to the marine ecosystem. The results appear in the April 2 online edition of the journal Proceedings of the National Academy of Sciences (PNAS). (more…)

New Technique Lets Scientists Peer Within Nanoparticles, See Atomic Structure in 3-D

By Guest PostMarch 23, 2012Science3 d, atom, atomic scale resolution, atomic structure, chien chun chen, chris regan, chun zhu, conundrum, electronic property, gold atom, gold nanoparticle, gold particle, high energy electron, honeycomb, image, jianwei john miao, mary scott, material, matthew mecklenburg, microscope, nanomaterial, nanometer, nanostructure, peter ercius, radiation, rui xu, three dimensions, ucla, ulrich dahmen, x ray crystallography

UCLA researchers are now able to peer deep within the world’s tiniest structures to create three-dimensional images of individual atoms and their positions. Their research, published March 22 in the journal Nature, presents a new method for directly measuring the atomic structure of nanomaterials.

“This is the first experiment where we can directly see local structures in three dimensions at atomic-scale resolution — that’s never been done before,” said Jianwei (John) Miao, a professor of physics and astronomy and a researcher with the California NanoSystems Institute (CNSI) at UCLA. (more…)

Sediment Sleuthing

By Guest PostMarch 23, 2012Environmentchristopher sommerfield, coast, contaminant, delaware bay, delaware river, element, environmental science, epa, fukushima nuclear disaster, i 131, Japan, non radioactive, ocean, radiation, radioactive iodine, radioactive medicine, radioiodine, radionuclide, river, schuylkill river, sea floor, sediment, suspended particle, teresa messmore, university of delaware, wastewater

Radioactive medicine being tracked through rivers

A University of Delaware oceanographer has stumbled upon an unusual aid for studying local waterways: radioactive iodine. Trace amounts of the contaminant, which is used in medical treatments, are entering waterways via wastewater treatment systems and providing a new way to track where and how substances travel through rivers to the ocean.

“This is a really interesting convergence of medicine, public health and environmental science,” said Christopher Sommerfield, associate professor of oceanography in UD’s College of Earth, Ocean, and Environment. (more…)

Fukushima Lesson: Prepare for Unanticipated Nuclear Accidents

By Guest PostMarch 12, 2012Environmentalexandra navrotsky, davis, decontamination, earthquake, edward h kraus, electricity, Environment, fission, fukushima, fukushima daiichi, fukushima reactor, human health, hydrogen gas, Japan, japanese government, knowledge, magnitude, nuclear fuels, nuclear power plant, nuclear waste, peter burns, radiation, radioactive fallout, rehabilitation, rodney ewing, seawater, tepco, tsunami, university of california, university of michigan, university of notre dame, uranium dioxide, zirconium alloy

ANN ARBOR, Mich.— A year after the crisis at Japan’s Fukushima Daiichi nuclear power plant, scientists and engineers remain largely in the dark when it comes to fundamental knowledge about how nuclear fuels behave under extreme conditions, according to a University of Michigan nuclear waste expert and his colleagues.

In a review article in this week’s edition of the journal Science, U-M’s Rodney Ewing and two colleagues call for an ambitious, long-term national research program to study how nuclear fuels behave under the extreme conditions present during core-melt events like those that occurred at Fukushima following the March 11, 2011, magnitude 9.0 earthquake and tsunami. (more…)

Researchers Suggest A Proximate Cause of Cancer

By Guest PostJanuary 26, 2012Health, Science3d cancer model, biochemical carcinogenic factors, biochemical factors, boston university, cancer cells, cancer progression, cancerous behavior, carcinogenic factors, cell, computational model, Environment, genetic, healthy tissue, life cycle, malignant tumor, mechanical factors, mechanical property, muhammad zaman, multiplication rate, parag katira, physical stress, prevent cancer, probability of death, radiation, roger t bonnecaze, softening of cells, stiffer cells, synthetic chemicals, types of cancers, understanding of cancer, university of texas at austin

AUSTIN, TX — Researchers from The University of Texas at Austin’s Department of Chemical Engineering are the first to show that mechanical property changes in cells may be responsible for cancer progression — a discovery that could pave the way for new approaches to predict, treat and prevent cancer.

Postdoctoral student Parag Katira and his adviser, Roger T. Bonnecaze, department chair in the Cockrell School of Engineering and T. Brockett Hudson Professor, worked with Muhammad Zaman of Boston University to devise a 3-D cancer model that shows the softening of cells and changes in cell binding cause cancerous behavior in cells. These mechanical property changes cause cells to divide uncontrollably — making them less likely to die and resulting in malignant tumor growth. The findings present a unique physics-based perspective on understanding cancer progression and were published recently in the American Physical Society’s journal Physical Review Letters. (more…)

Stars Pop Onto the Scene in New WISE Image

By Guest PostJanuary 13, 2012Scienceamerican astronomical society, astronomers, bubbles, cosmic clouds, dave leisawitz, gas and dust, milky way galaxy, mosaic, NASA, natal clouds, nebulae, new star birth, newborn stars, public astronomy, radiation, space telescope, specimens, star formation, star forming clouds, triggered star formation, triggered star formation theory, wide field infrared survey explorer, wise, wise mosaic, xavier koenig

PASADENA, Calif. — A new, large mosaic from NASA’s Wide-Field Infrared Survey Explorer (WISE) showcases a vast stretch of cosmic clouds bubbling with new star birth. The region — a 1,000-square-degree chunk of our Milky Way galaxy — is home to numerous star-forming clouds, where massive stars have blown out bubbles in the gas and dust.

“Massive stars sweep up and destroy their natal clouds, but they continuously spark new stars to form along the way,” said WISE Mission Scientist Dave Leisawitz of NASA Goddard Space Flight Center, Greenbelt, Md. Leisawitz is co-author of a new paper reporting the results in the Astrophysical Journal. “Occasionally a new, massive star forms, perpetuating the sequence of events and giving rise to the dazzling fireworks display seen in this WISE mosaic.” (more…)

Made in IBM Labs: Researchers Unveil Nanotechnology Circuits for Wireless Devices

By Guest PostJune 10, 2011Technology10 gigahertz, binnig and rohrer nanotechnology center, bio analytics, broadband frequency, building block, carbon electronics for rf applications, cell phone, cera, chemical vapor deposited grapheme, cvd, cvd grapheme, energy technology, eth zurich, fabrication of graphene circuits, grapheme based analog integrated circuit, graphene, honeycomb structure, ibm research, integrated circuit, nanoscale research, Nanotechnology, novel material, radiation, sic, silicon carbide wafer, single layer of carbon atoms, smart phones, solar energy, t c chen, thinnest electronic material, wafer size grapheme, water purification, wireless communications, wireless devices, x-rays

*Scientists Build the First Wafer-Scale Graphene Integrated Circuit Smaller than a Pinhead*

Yorktown Heights, NY – 10 Jun 2011: Today, IBM Research scientists announced that they have achieved a milestone in creating a building block for the future of wireless devices. In a paper published yesterday in the magazine Science, IBM researchers announced the first integrated circuit fabricated from wafer-size graphene, and demonstrated a broadband frequency mixer operating at frequencies up to 10 gigahertz (10 billion cycles/second).

Designed for wireless communications, this graphene-based analog integrated circuit could improve today’s wireless devices and points to the potential for a new set of appli-cations. At today’s conventional frequencies, cell phone and transceiver signals could be improved, potentially allowing phones to work where they can’t today while, at much higher frequencies, military and medical personnel could see concealed weapons or conduct medical imaging without the same radiation dangers of X-rays. (more…)

Woods Hole Oceanographic Institution to Lead Expedition to Measure Radioactive Contaminants in the Pacific Ocean

By Guest PostJune 3, 2011Environmentacoustic doppler current profiler, adcp, assessment, atlantic, cesium 137, contamination pathways and dispersion, drinking water standard, fukushima nuclear power plant, fukushima plant, gordon and betty moore foundation, gulf stream, iodine and cesium isotopes, Japan, kaimikai o kanoloa, ken buesseler, kuroshio current, levels and dispersion of radioactive substances in the pacific ocean, marine organisms, moore funding, nick fisher, ocean current, phytoplankton, radiation, radioactive contaminants, radioactivity in ocean, radioisotope geochemistry, radionuclides, reactors, research vessel, spain, susan avery, tepco, tokyo electric power company, tokyo institute of technology, university of bremen, university of hawaii, us environmental protection agency, vicki chandler, whoi, woods hole oceanographic institution

The Woods Hole Oceanographic Institution (WHOI) will lead the first international, multidisciplinary assessment of the levels and dispersion of radioactive substances in the Pacific Ocean off the Fukushima nuclear power plant—a research effort funded by the Gordon and Betty Moore Foundation.

“This project will address fundamental questions about the impact of this release of radiation to the ocean, and in the process enhance international collaboration and sharing of scientific data,” said Vicki Chandler, Chief Program Officer, Science at the Gordon and Betty Moore Foundation. “It is our hope that through this adverse event, we can increase our current knowledge about various natural and man-made sources of radioactivity in the ocean, and how they might ultimately impact ocean life and health around the world.” (more…)