Sentences with phrase «electron laser lcls»
The advent of hard X-ray Free - Electron - lasers (XFEL), such as the European XFEL in the Hamburg area, Germany, the Linac Coherent Light Source (LCLS), CA, USA or the SPring - 8 Angstrom Compact free electron LAser (SACLA), Japan, enables a broad range of novel experiments including single - shot diffraction imaging of biological structures and time - resolved imaging of the dynamics of matter
https://www.bioxfel.org/
Here, we demonstrate that MISC is feasible at an X-ray free electron laser by studying the reaction of M. tuberculosisß - lactamase microcrystals with ceftriaxone antibiotic solution.
Marco Cammarata (ESR main supervisor) has developed time - resolved solution scattering to follow protein structural change in solution and has worked at the world first Hard X-ray beamline (XPP) at a Free Electron Laser (LCLS).
EUCALL is a network between leading large - scale user facilities for free - electron laser, synchrotron and optical laser radiation and their users.
Topic: CrystFEL - data processing for serial crystallography Presenter: Thomas White, Research Scientist, Center for Free Electron Laser Science, DESY, Hamburg, Germany Host: Jason Key Date Recorded July 14, 2015
Abstract: We have investigated multiphoton multiple ionization dynamics of argon and xenon atoms using a new x-ray free electron laser (XFEL) facility, SPring - 8 Angstrom Compact free electron LAser (SACLA) in Japan, and identified that highly charged Xe ions with the charge state up to +26 are produced predominantly via four - photon absorption as well as highly charged Ar ions with the charge state up to +10... ▽ More We have investigated multiphoton multiple ionization dynamics of argon and xenon atoms using a new x-ray free electron laser (XFEL) facility, SPring - 8 Angstrom Compact free electron LAser (SACLA) in Japan, and identified that highly charged Xe ions with the charge state up to +26 are produced predominantly via four - photon absorption as well as highly charged Ar ions with the charge state up to +10 are produced via two - photon absorption at a photon energy of 5.5 keV.
The construction and operation of the facility has been entrusted to an independent research organization, the European X-Ray Free - Electron Laser Facility GmbH (European XFEL GmbH), a non-profit limited liability company under German law that has international shareholders.
These opportunities include using ultrafast X-ray sources to extract time - dependent structural information from proteins; and revolutionary possibilities created by X-ray Free Electron Laser radiation for an entirely new regime of pre-damage serial femtosecond crystallography.
A study led by scientists of the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) at the Center for Free - Electron Laser Science in Hamburg presents evidence of the coexistence of superconductivity and...
May 17 to 19, the campus will host «Big Mag @ UCSB,» a workshop intended to identify the transformational science that would be enabled by coupling a 32 Tesla superconducting magnet — about 1 million times stronger than the Earth's magnetic field — to UCSB's terahertz free - electron laser (FEL), the only facility of its kind in the U.S..
So you can look at the same kinds of processes that you can look at with an X-ray free - electron laser, but with an electron eye.»
Jacques - Philippe Colletier and colleagues used a recently developed technique called serial - femtosecond crystallography at an X-ray free - electron laser source (a powerful laser source) to solve the structure of BinAB.
My students & I have done research with and / or work at: Argonne National Laboratory's - Advanced Photon Source - Synchrotron Argonne National Laboratory's - Center for Nanoscale Materials The Jefferson National Lab's Free Electron Laser Facility Fermilab: Dark Energy Survey Camera, Cryogenic Search for Dark Matter (CDMS) and COUPP Dark Matter Bubble Chamber.
Europe hosts 13 synchrotron radiation facilities and six free electron laser facilities which all of them are founding members of LEAPS.
The European X-Ray Free - Electron Laser Facility (European XFEL) celebrates the inauguration of its X-ray laser and officially opens for researchers.
X-ray free electron laser and mass spectrometric studies into the mechanism of water oxidation in photosystem II
The ESR will participate in both time - resolved WAXS and diffraction studies at synchrotron radiation sources and X-ray free electron laser, be educated in the tools of X-ray scattering and X-ray diffraction analysis, and develop code for the interpretation of structural changes using both methods.
Dublin Institute of Technology, Electrical and Controls Engineering and Gaskatel, Kassel, Germany - Fuel Cells University of Applied Science - Germany, Fuel Cells and Nanocomposit Materials Trinity College - Dublin Physics - Nanotubes and Polymer Modified Carbon Nanotubes materials and Spectroscopic Characterization of Liganded Rare Earth Compounds (Chemistry) Our work has resulted inthe start up of two companies: Photonic Cleaning Technologies, LLC, Platteville, WI, USA - Manufacturer of First Contact Polymer, Sales in 62 Countries Xolve, Inc., Platteville, WI, USA Hamilton Group Past and Present Research and Development Projects: Design, Characterization and Synthesis of Chromone Laser Dyes Surface And Optical Characterization of Polymer Strip Coatings for Optics and Astronomy Double Resonance IR / VIS Fluorescence Detection using the National Free Electron Laser Facility in Newport News, Virginia
In addition to lecturing as a professor of physics at Hamburg University, Chapman is the division director at the Center for Free - Electron Laser Science (CFEL) at the University of Hamburg and serves as the founding director of the Center for Free - Electron Laser Science at the German Electron Sychrotron (DESY).
The European X-ray Free Electron Laser (XFEL), which happens to be the largest x-ray laser in the world, can take 3,000 images per second of that tiny world.
CrystFEL is a suite of programs for processing Bragg diffraction data acquired with a free electron laser in a «serial» manner.
The data were collected using the Linac Coherent Light Source X-ray free electron laser, or XFEL, at the SLAC National Accelerator Laboratory — operated by Stanford University for the U.S. Department of Energy Office of Science.
As the name suggests, an X-ray free - electron laser requires electrons — lots of them, and in
«We were selected to provide critical technologies that generate the high - brightness and high - repetition - rate electron beam that is the first component in the superconducting accelerator chain, and the undulators that are the core of the free - electron laser X-ray source.
On the docket is support for a new types of detectors assembled from may separate, planar segments for recording FEL (free electron laser) data at the Linac Coherent Light Source at Stanford.
A femtosecond X-ray pulse from an X-ray free electron laser intersecting a droplet that contains photosystem II crystals, the protein extracted and crystallized from cyanobacteria.
The current focus of his work is finding ways to apply new methods to multiple modes of data collection, from X-ray diffraction to cryo - electron microscopy, X-ray free electron laser (XFEL) technology, and electron diffraction.
Examples include handling data from faster detectors, like the Pilatus, handling new technologies, such as the X-ray free electron laser (XFEL), and handling new types of experiments, such as putting multiple crystals in the beamline at the same time, or running experiments using two different wavelengths at the same time.
The project's long - term goal is to help Danish industry make the most of nearby large - scale research facilities such as the European Spallation Source, the MAX IV synchrotron and the European X-Ray Free Electron Laser.
The SLAC Linear Coherent Light Source (LCLS) is the world's first hard X-ray free electron laser.
Every individual pulse coming from the Helmholtz - Zentrum Dresden - Rossendorf's Free - Electron Laser (FEL) consists of countless light particles.
A team working at the SACLA X-ray Free - Electron Laser in Japan has succeeded in generating ultra-bright, two - color X-ray laser pulses, for the first time in the hard X-ray region.
Fuchs and other team members used a new source of X-rays, an X-ray free - electron laser at the National Accelerator Laboratory in California, to conduct experiments.
This opens up new opportunities in the study of protein structures, as the team headed by DESY's Leading Scientist Henry Chapman from the Center for Free - Electron Laser Science reports in the Proceedings of the U.S. National Academy of Sciences (PNAS).
To break this limit in crystal size, an extremely bright X-ray beam was needed, which was obtained using a so - called free - electron laser (FEL), in which a beam of high - speed electrons is guided through a magnetic undulator causing them to emit laser - like X-ray pulses.
The scientists used the free - electron laser LCLS at the SLAC National Accelerator Laboratory in the U.S., and employed optics to focus each X-ray pulse to a similar size as one of the virus particles.
A recent study at the Department of Energy's SLAC National Accelerator Laboratory successfully used this technique at an X-ray free - electron laser for the first time with the element selenium as a marker.
This idyll has now been heavily shaken up by a team of physicists led by Matthias Kling, the leader of the Ultrafast Nanophotonics group in the Department of Physics at Ludwig - Maximilians - Universitaet (LMU) in Munich, and various research institutions, including the Max Planck Institute of Quantum Optics (MPQ), the Institute of Photonics and Nanotechnologies (IFN - CNR) in Milan, the Institute of Physics at the University of Rostock, the Max Born Institute (MBI), the Center for Free - Electron Laser Science (CFEL) and the University of Hamburg.
Pulse duration of 45 femtoseconds for monochromatized harmonics is 300 times shorter than the typical pulse duration of synchrotron radiation (15 picoseconds) and is comparable to the pulse length of a free - electron laser (FEL).
«It's just like surfing, like catching a wave,» says Henry Freund, a long - time free electron laser scientist and vice president at Science Applications International Corporation.
George Neil, who leads the Jefferson Laboratory's free electron laser program, says some insiders question whether a free electron laser is even a laser, since its created via a different method than your typical laser.
Here's an overview of how the Navy's free electron laser works.
By 2016, Boeing is scheduled to transfer its free electron laser technology from Jefferson Laboratory and other participating labs, in order to demonstrate a 100 - kilowatt prototype that is compatible with operation on a ship.
The team exposed a sample of crystals, known as Buckminsterfullerene or Buckyballs, to intense light emitted from the world's first hard X-ray free electron laser (XFEL), based at Stanford University in the United States.
Researchers simulated the environment found inside these planets by creating shock waves in plastic with an intense optical laser at the Matter in Extreme Conditions (MEC) instrument at SLAC National Accelerator Laboratory's X-ray free - electron laser, the Linac Coherent Light Source (LCLS).
Pogue is the program manager for Boeing's free electron laser (FEL) program, potentially the most ambitious laser weapons program since the Pentagon's controversial airborne laser.
Because a free electron laser is made out of an electron beam instead of one particular type of material, it is not a prisoner to a molecular structure.
Physicists at Argonne National Laboratory have now bested a world record, coaxing the most energetic beam of light yet from a mirrorless free - electron laser.
DARPA is looking at more efficient technologies, like fiber lasers and liquid lasers, which could lead to smaller, more compact devices, while the Navy is researching a Free Electron Laser, an experimental technology that uses high - speed electrons to generate an extremely powerful focused beam of radiation.
As part of this initiative, the CAMERA team combined efforts with Ruslan Kurta, a physicist at the European XFEL (X-ray free electron laser) facility in Germany, to analyze angular correlations from the experimental data and use CAMERA's multi-tiered iterative phasing (M - TIP) algorithm to perform the first successful 3D virus reconstructions from experimental correlations.