View allAll Photos Tagged accelerators
Many of the SLAC and Stanford researchers who helped create the accelerator on a chip are pictured in SLAC's NLCTA lab where the experiments took place. Left to right: Robert Byer, Ken Soong, Dieter Walz, Ken Leedle, Ziran Wu, Edgar Peralta, Jim Spencer and Joel England. (Matt Beardsley/SLAC)
Oscilloscopes are like eyes for electronics. If you don't know how to use one, you'll have no idea what's going on.
The cryogenic plant responsible for keeping LCLS-II’s superconducting linear accelerator at just a few degrees above absolute zero recently received its first warm helium compressors, representing an important construction milestone. The cryoplant will be responsible for feeding superfluid helium into the super-conducting linac to accelerate the LCLS-II electron beam. A total of 12 warm helium compressors, designed and built by Jefferson Lab, will be installed into the Cryoplant Building.
LCLS-II is an upgrade to SLAC’s LCLS X-ray laser. Learn more.
Photo Credit: Dawn Harmer/SLAC National Accelerator Laboratory
The Stanford Linear Accelerator, a 3 kilometer long RF linear accelerator, shown in an aerial digital orthoimage.
Image data acquired 2004-02-27 by the United States Geological Survey.
This image created by Peter Kaminski, 2004-12-19 and uploaded in the public domain for the Wikipedia article about SLAC.
A superconducting triple-spoke cavity is prepared for electropolishing in a clean room.
Researchers at Argonne National Laboratory have developed state-of-the-art techniques that will lead to significant improvements in the performance of superconducting niobium cavities. Argonne's superconducting spoke cavities can operate at lower temperatures and at higher magnetic fields than previous designs, translating into a potential savings in the cost of a heavy-ion linear accelerator. Read more »
Participants in the Reflections on Leadership: Visioning session at the World Economic Forum Annual Meeting 2023 in Davos-Klosters, Switzerland, 17 January. Accelerator. Copyright: World Economic Forum/ Greg Beadle
For the next three month, thirty startups work out ouf the transformed "ewz-Unterwerk Selnau" in Zurich
November 9, 2022
A networking evening with design and innovation enthusiasts and the three selected Swiss design studios participating in the Swiss Design Accelerator at Pier 17.
Photographs by Myleen Hollero
The whole group of Accelerators got together in Berlin this week for the first time. Don't know if it was my influence but getting this international crowd to eat pizza and drink Coke feel alike a fantastic accomplishment.
In the interest of shorter downtime and faster healing, we're always on the lookout for new technologies that can help our patients in these areas. We've noticed that the smaller scabs patients have after their procedure, the quicker they heal. A new protein-enhanced topical product was used on this patient just after all the ~2500 transplanted follicular-unit grafts had been settled into position. The gel was applied (photo #3, upper right) at the suggested coating of 3-4mm thickness. The following day, there were very few 'hard' scabs noticed in the transplanted area. All grafts were still intact and well-seated. Immediately following the standard mechanical scalp-wash (Ocoee unit) the skin was noticed to be exceptionally clean. For more information on healing-accelerator treatments with hair transplantation, visit www.baumanmedical.com
Clutch, brake and accelerator (throttle) pedal wear and tear study after 253,000 miles on our 2007.5 model year Ford Mondeo Zetec 2.0L TDCi.
It's not inconceivable that the clutch pedal has been pressed and released well over one million times.
My Ford Mondeo album flic.kr/s/aHsjxdsPsK
Perspective view of Hall A/C Mechanical Engineer Whit Seay using the scissor lift to gain access to upper platform. The CLEO_II Superconducting Solenoid Magnet which is being refurbished inside the SRF Test Lab for the Solenoidal Large Intensity Device (SoLID) experiment at Jefferson Lab on Tuesday, Dec. 6, 2022. (Photo by Aileen Devlin | Jefferson Lab)
The Stanford Synchrotron Radiation Lightsource (SSRL) at SLAC National Accelerator Laboratory (SLAC) is an Office of Science User Facility operated for the U.S. Department of Energy (DOE) by Stanford University. SSRL provides extremely bright X-rays that scientists use for a wide range of research that probes matter on the scales of atoms and molecules. Studies target advances in energy science, human health, environmental cleanup, nanotechnology, novel materials and information technology, among others.
Read more: www6.slac.stanford.edu/facilities/ssrl
Cancer continues to be a major public health problem in Albania. The University Medical Centre “Mother Teresa” in Tirana, supported by the IAEA for the past decade, is the only public hospital that provides radiation therapy treatment in the country.
A linear accelerator is the device most commonly used to treat cancer with external beam radiation. Tirana, Albania. 17 July 2018
Photo Credit: Alejandra Silva / IAEA
Hardware inside the SPEAR3 accelerator tunnel at SSRL.
Read more: www-ssrl.slac.stanford.edu/content/spear3/spear3-accelerator
Looking down one of the two sections of superconducting linear accelerator in the Continuous Electron Beam Accelerator Facility.
For the next three month, thirty startups work out ouf the transformed "ewz-Unterwerk Selnau" in Zurich
The Science and User Support Building (SUSB) to the left and Kavli Institute for Particle Astrophysics & Cosmology (KIPAC) building to the right at dusk.
(Olivier Bonin/SLAC National Accelerator Laboratory)
On June 10, 2014 the UN Foundation and the United Nations Department of Public Information (DPI) co-hosted the Global Accelerator at UN Headquarters in NY. The Global Accelerator is a first-of-its-kind forum for entrepreneurs and UN officials to connect and explore innovative solutions to the global challenges of job creation and youth employment, water and sanitation, and gender equality.