Klaus Dieter Liss from the European Synchrotron Radiation Facility in Grenoble, France, and colleagues have created a cavity that traps X-ray photons between two thin plates of silicon (Nature 404 371...
Stirling is no stranger to Grenoble, having worked at the nearby Institut Laue-Langevin (ILL) neutron source for 14 years, and later chairing the ILL scientific council. He currently uses X-rays from ...
Construction of the new synchrotron is expected to take about five years, and it will cost about £550 m to build and operate the machine over its 20 year lifetime. The Wellcome Trust will contrib...
NAUTILUS was designed to observe the gravitational waves produced by collisions between objects such as black holes or neutron stars. According to the Frascati’s group calculations, signals from...
XMM will be in a highly elliptical orbit to keep it away from interference caused by the Sun’s glare. The telescope’s large size and unusual orbit explains why XMM was launched from Ariane...
The HFBR had become trapped in a economic and political battle between the Department of Energy and the US congress, with the latter refusing to release funds to restart the reactor. Moreover, it was ...
Like ESA’s recent Hipparcos mission, FAME will use the parallax method to determine the stars’ positions: as the telescope and the Earth orbit the sun, the position of the stars will chang...
The UK synchrotron, once known as Diamond, is intended to replace the ageing second-generation SRS machine at the Daresbury Laboratory in Cheshire, although the location of the new machine has still t...
Scientists at the research laboratory of the Museums of France in Paris compared the painting with nine of the 70 works accredited to Van Gogh during his time at Auvers. However, they were not allowed...
X-ray observations with Chandra will complement infrared images from the Hubble Space Telescope and higher-energy observations by the Compton Gamma Ray Observatory. Chandra will have a resolution that...