Physics & Mathematics

Breakthrough Brings Laser Light to New Regions of the Spectrum

Combining concepts from electromagnetic radiation research and fiber optics, researchers have created an extreme-ultraviolet, laser-like beam capable of producing tightly-focused light in a region of the electromagnetic spectrum not previously accessible to scientists. Between 10-100 times shorter than visible light waves, the extreme-ultraviolet (EUV) wavelengths will allow researchers to “see” tiny features and carve miniature patterns, with applications in such fields as microscopy, lithography and nanotechnology. The achievement is based on a new structure called a “waveguide,” a hollow glass tube with internal humps that coax light waves into traveling along at the same speed and help the waves reinforce each other.

Methane Clouds Discovered at the South Pole of Titan

Teams of astronomers at the California Institute of Technology and the University of California at Berkeley have discovered methane clouds near the south pole of Titan. Titan is Saturn’s largest moon, larger than the planet Mercury, and is the only moon in our solar system with a thick atmosphere. Like Earth’s atmosphere, the atmosphere on Titan is mostly nitrogen. Unlike Earth, Titan is inhospitable to life due to the lack of atmospheric oxygen and its extremely cold surface temperatures (-183 C; -297 F). Along with nitrogen, Titan’s atmosphere contains a significant amount of methane. Earlier spectroscopic observations had hinted at the existence of clouds on Titan, but gave no clue as to their location.

Quantum dots to form basis of next-generation computer displays?

Researchers at MIT have created what could be the flat panel display of the future, combining organic materials with high-performing inorganic nanocrystals to create a hybrid optoelectronic structure. In other words, a quantum dot-organic LED, or light-emitting device. Also called artificial atoms, quantum dots are nanometer-scale “boxes” that selectively hold or release electrons. Unlike traditional LCDs, which must be lit from behind, quantum dots generate their own light. Depending on their size, the dots can be “tuned” to emit any color in the rainbow. And the colors of light they produce are much more saturated than that of other sources.

NASA observatory reveals pileup on cosmic speedway

Lobes of unexpectedly hot gas speeding away from a black hole in our galaxy have been discovered with NASA ‘s Chandra X-ray Observatory. The high temperature and the distance of the lobes from the black hole indicate that violent collisions are occurring between clumps of gas expelled from the vicinity of the black hole. A key finding was evidence indicating rapidly moving hot iron atoms. “Just like a super-highway, it’s a dangerous world out there,” said Simone Migliari on the University of Amsterdam, lead author on a paper from a September 6, 2002 issue of Science magazine. “Blobs of gas are getting rear-ended at speeds in excess of a hundred million miles per hours!”

Ultrasound Shown To Be Potentially Safe, Effective Way to Kill Bacteria

High-power ultrasound, currently used for cell disruption, particle size reduction, welding and vaporization, has been shown to be 99.99 percent effective in killing bacterial spores after only 30 seconds of non-contact exposure in experiments. In the experiments, bacterial spores contained in a paper envelope, were placed slightly (3mm) above the active area of a specially equipped source of inaudible, high frequency (70 to 200 kHz) sound waves and hit for 30 seconds. There was no contact medium, such as water or gel, between the ultrasound source and the spores as is typically used in low-power, medical diagnostic ultrasound. The experiments mark the first time that Non-Contact Ultrasound (NCU) has been shown to inactivate bacterial spores.

NASA develops new design process for future spacecraft

Building the next Starship Enterprise may have just gotten a little simpler. NASA has announced what it says is an efficient, timely, revolutionary process that may help design the next generation of space vehicles. Engineers at NASA Ames Research Center in California’s Silicon Valley, in collaboration with astronauts from NASA Johnson Space Center, Houston, are using the Virtual Flight Rapid Integration Test Environment (VF-RITE) to develop and evaluate vehicle designs that may eventually ferry astronauts to and from the International Space Station. The new process quickly and efficiently incorporates virtual test-flight data into the design process, creating a continuous dialog between test pilots and vehicle designers.

New center to transfer nano innovations to defense industry

The Defense Advanced Research Project Agency (DARPA) and Defense MicroElectronics Activity (DMEA) along with three University of California campuses have established a new Center for Nanoscience Innovation for Defense, to get university advances in the nanosciences into defense contractors’ hands as soon as possible.

Featherweight Jupiter Moon Is Likely a Jumble of Pieces

NASA’s Galileo spacecraft continues to deliver surprises with the discovery that Jupiter’s potato-shaped inner moon, named Amalthea, appears to have a very low density, indicating it is full of holes. “The density is unexpectedly low,” said Dr. John D. Anderson, an astronomer at NASA’s Jet Propulsion Laboratory, Pasadena, Calif. “Amalthea is apparently a loosely packed pile of rubble.” The empty gaps between solid chunks likely take up more of the moon’s total volume than the solid pieces, and even the chunks are probably material that is not dense enough to fit some theories about the origin of Jupiter’s moons. “Amalthea now seems more likely to be mostly rock with maybe a little ice, rather than a denser mix of rock and iron,” said JPL’s Dr. Torrence Johnson, project scientist for Galileo.

French use robot arm to remotely diagnose patient at sea

French researchers say they have for the first time demonstrated the use of a teleoperated robotic arm for echographic diagnosis in a remote situation. The objective of the project was to demonstrate how teleoperated echographic diagnosis can be carried out on patients at remote locations. A radiologist at St Anne’s Hospital in Toulon used the teleoperated robotic arm to diagnose a test patient on board the ship stationed at sea. With the robotic arm, videoconferencing equipment and satellite communications, the radiologist was able to assess the severity of medical problems from the remote site. This has important implications for spaceflight and research as it means that astronauts on board the international space station can receive diagnostic attention without returning to Earth.

NASA Research Offers Explanation for Earth’s Bulging Waistline

A team of researchers from NASA’s Jet Propulsion Laboratory, Pasadena, Calif., and the Royal Observatory of Belgium has apparently solved a recently observed mystery regarding changes to the physical shape of Earth and its gravity field. The answer, they found, appears to lie in the melting of sub-polar glaciers and mass shifts in the Southern, Pacific and Indian Oceans associated with global-scale climate changes.

Disappearing Neutrinos Support the Case for Neutrino Mass

Results from the first six months of experiments at KamLAND, an underground neutrino detector in central Japan, show that anti-neutrinos emanating from nearby nuclear reactors are “disappearing,” which indicates they have mass and can oscillate or change from one type to another. As anti-neutrinos are the anti-matter counterpart to neutrinos, these results provide independent confirmation of earlier studies involving solar neutrinos and show that the Standard Model of Particle Physics, which has successfully explained fundamental physics since the 1970’s, is in need of updating. The results also point the way to the first direct measurements of the total radioactivity of the earth.

NASA to showcase innovative research for treating blindness

A technology designed to restore vision in patients suffering from age-related blindness will be demonstrated by a scientist at NASA Ames Research Center in California’s Silicon Valley today. Developed by NASA Ames in conjunction with the Stanford University School of Medicine, the “Vision Chip” may help improve age-related macular degeneration, the number one cause of blindness in the elderly. “Nanotechnology that could restore vision is an exciting example of how NASA science and engineering, origially intended for outer space, can return enormous dividends for everyday life here on Earth,” said Dr. David J. Loftus, a member of both the Life Sciences Division and the Integrated Product Team on Devices and Nanotechnology at NASA Ames.

Researchers decipher optical spectra of carbon nanotubes

Building upon this summer’s groundbreaking finding that carbon nanotubes are fluorescent, chemists at Rice University have precisely identified the optical signatures of 33 “species” of nanotubes, establishing a new methodology for assaying nanotubes that is simpler and faster than existing methods. In research published this week by Science magazine, a spectroscopy research team led by Rice Chemistry Professor R. Bruce Weisman detailed the wavelengths of light that are absorbed and emitted by each type of light-emitting nanotube. The findings hold great promise for chemists, physicists and materials scientists studying nanotubes, because it otherwise takes many hours of tedious testing for researchers to assay a single sample of nanotubes, and optical tests could be much faster and simpler.

‘Hormonal’ software could help satellite self-assemble in space

A unique design for self-organizing robots controlled by “hormonal” software is moving toward space. At the Robosphere 2002 conference held at the NASA Ames Research Center in Silicon Valley November 14-15, Wei-Min Shen of the USC School of Engineering’s Information Sciences Institute (ISI) presented an overview of an audacious project to have pieces of the proposed half-mile-long Space Solar Power System satellite put themselves together–self-assemble–without the help of astronauts.