The science minister, Lord Sainsbury, will today open the highest resolution analytical microscope in the world at the CCLRC Daresbury Laboratory in Cheshire. The SuperSTEM (Scanning Transmission Electron Microscope) project is directed by Professor Peter Goodhew at Liverpool University and involves other scientists from the Universities of Liverpool, Cambridge, Glasgow and Leeds.
The microscope is housed in a new purpose-built low-vibration laboratory at the Daresbury Laboratory and will
ESA’s gamma-ray satellite, Integral, is fully operational. Today Integral’s first ground-breaking images of the high-energy Universe were presented in Paris, France. Astronomers call such initial observations ’first-light’ images.
The high-energy Universe is a violent place of exploding stars and their collapsed remnants such as the ultra-compressed neutron stars and, at the most extreme, all-consuming black holes. These celestial objects create X-rays and gamma rays tha
The European Investment Bank (EIB) is lending EUR 300 million to finance the final phase of construction of the Large Hadron Collider (LHC) at CERN, the European Organization for Nuclear Research. The loan will also help to finance the instrumentation to record and analyse the high-energy particle collisions at the LHC. A loan to enable construction of this major project was foreseen by CERN’s governing Council when it approved the LHC in 1996.
The EIB, the European Union’s long term
Ohio University astronomers have discovered the largest disk of hot, X-ray emitting gas ever observed in the universe: At 90,000 light years in diameter, it’s about 100,000 times the size of any comparable object. The disk, spinning through a distant galaxy, is more than just an interstellar oddity, the researchers say. The object could offer new information about the way certain galaxies form and evolve.
About 20 percent of all galaxies are elliptical, the largest of the three types of ga
Using a powerful new instrument at the South Pole, a team of cosmologists has produced the most detailed images of the early Universe ever recorded. The research team, which was funded by the National Science Foundation (NSF), has made public their measurements of subtle temperature differences in the Cosmic Microwave Background (CMB) radiation. The CMB is the remnant radiation that escaped from the rapidly cooling Universe about 400,000 years after the Big Bang. Images of the CMB provide researchers
VLT Images Progenitors of Today’s Large Galaxies [1]
An international team of astronomers [2] has made the deepest-evernear-infrared Ks-band image of the sky, using the ISAAC multi-modeinstrument on the 8.2-m VLT ANTU telescope.
For this, the VLT was pointed for more than 100 hours under optimalobserving conditions at the Hubble Deep Field South (HDF-S) andobtained images in three near-infrared filters. The resulting imagesreveal extremely distant galaxies, which appear at
Reconnection, the merging of magnetic field lines of opposite polarity near the surface of the sun, Earth and some black holes, is believed to be the root cause of many spectacular astronomical events such as solar flares and coronal mass ejections, but the reason for this is not well understood. Researchers at Los Alamos National Laboratory now have a new theory that may explain the instability and advance the understanding of these phenomena.
Theorists Giovanni Lapenta of Los Alamos Nati
Study of planetary disks around T Tauri stars
If David Weintraub and Jeff Bary are right, there may be a lot more planets circling stars like the Sun than current models of star and planet formation predict.
The associate professor of astronomy at Vanderbilt and his graduate student are taking a critical look at T Tauri stars. These are stellar adolescents, less than 10 million years old, which are destined to become stars similar to the Sun as they age.
Classical T Taur
The sun is healthy and strong, but physicists will have to change some of the basic assumptions they have made about how the universe works.
These are the results released today from the latest study of neutrinos made with a detector buried a half mile under a Japanese mountain. LSU physicist Bob Svoboda, who worked on an earlier ground-breaking experiment in the same mountain, was construction supervisor on this one.
Basically, scientists were trying to understand why the s
A new study led by University of Colorado at Boulder researchers indicates Mars has been primarily a cold, dry planet following its formation some 4 billion years ago, making the possibility of the evolution of life there challenging at best.
Led by CU-Boulder doctoral candidate Teresa Segura and her adviser, Professor Owen B. Toon, the team used Mars photos and computer models to show that large asteroids or comets hit the planet some 3.5 billion years ago. These impacts apparently occurre
Astronomers think big all the time: it’s their job. And on 13th December, at a meeting hosted by the Royal Astronomical Society in London, a group of them will juggle with some truly astounding large numbers. On this occasion, though, they won’t be discussing the distances to remote galaxies, but the phenomenal sizes of the telescopes they want to build so they can explore the universe to a level of detail previous generations of astronomers would never have dreamt possible. Announcing a si
At this week’s First Pan American/Iberian Meeting on Acoustics in Cancun, researchers presented results on acoustic microscopy, a burgeoning technique that could provide new kinds of medically useful information on biological tissue. Unlike many other microscopy techniques, acoustical microscopy can be performed on living tissue and even inside the body, with the use of small ultrasound probes. And unlike optical microscopy of biological specimens, acoustic microscopy does not require tis sue stain
The internal state of an atom can change by absorbing or emitting bits of light. In a warm gas or plasma the electrons are frequently shuttling back and forth from one state to another. Some of these states are longer lived than others, though, because of extenuating circumstances. For instance, many transitions from an excited state to the ground state occur in nanoseconds, but some can last for tens of seconds or longer. Measuring the true lifetime of the longer-lived of these transitions is diff
When it comes to miniature electronics, scientists have seen the shape of things to come — and that shape is a fractal.
People most often see fractals in the familiar, irregular branching shapes of nature — a leaf, or tree, or snowflake. A repeating pattern of ever-smaller branches gives these structures a unique profile that defies classical geometry.
Now a study suggests that magnetic fields can take the form of fractals, too — if a magnet is made of plastic molecules t
An accepted assumption in astrophysics holds that it takes more than 1 million years for gas giant planets such as Jupiter and Saturn to form from the cosmic debris circling a young star. But new research suggests such planets form in a dramatically shorter period, as little as a few hundred years.
The forming planets have to be able to survive the effects of nearby stars burning brightly, heating and dispersing the gases that accumulate around the giant planets. If the process takes too lo
VLT Interferometer Measures the Size of Proxima Centauri and Other Nearby Stars [1] At a distance of only 4.2 light-years, Proxima Centauri is the nearest star to the Sun currently known [2]. It is visible as an 11-magnitude object in the southern constellation of Centaurus and is the faintest member of a triple system, together with Alpha Centauri, the brightest (double) star in this constellation. Proxima Centauri is a very-low-mass star, in fact barely massive enough to bu
Feedback
