JLab chooses new directors
Thomas Jefferson National Accelerator Facility has named Dr. Robert McKeown, a leading nuclear physicist and professor at the California Institute of Technology, as Deputy Director for Science.
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‘Cryo Cluster’ wins regional competition
A group of leading UK cryogenic companies called the “Cryogenics Cluster” has won the South East Regional Cluster Mark competition, launched last year by the British government’s Department of Business Innovation and Skills.
Humboldt Awards honor researchers studying iron pnictides
Tom Devereaux and Patrick Kirchmann, researchers with the Stanford Institute for Materials and Energy Science (SIMES), have received research awards from the Humboldt Foundation.
LHC collides beams at 7 TeV
Fermilab Press Release: The Large Hadron Collider has launched a new era for particle physics. Today at 6:06 a.m. CDT (1:06 p.m. Central European Summer Time) at CERN in Geneva, Switzerland, the first particles collided at the record energy of seven trillion electron volts (TeV).
Oxford Instruments receives high field magnet order from Diamond Light Source
Oxford Instruments has received an order for a high field magnet from Diamond Light Source.
AMSC & LS Cable expand business alliance
American Superconductor Corporation has announced that it has expanded its superconductor power cable strategic business alliance with LS Cable.
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Dewar
A dewar is a type of cryostat named after Sir James Dewar, the researcher who first developed the concept of a vacuum insulated container with silvered walls to reflect thermal radiation. Dewar was the first to liquefy hydrogen, and he created the device to store his discovery. The thermos bottle...
Stirling and Gifford-McMahon Cryocoolers
Stirling and Gifford-McMahon (GM) cryocoolers are two of the most commonly used cryocoolers in cryogenics. Both devices have a significant industrial base and operate at a wide range of temperatures and capacities. The thermodynamic cycles for both of these cryocoolers are quite similar. The Stirling cycle consists of a compressor,...
Liquefied Natural Gas (LNG)
A significant commercial application of cryogenics is the liquefaction, transport and storage of natural gas. Liquefied Natural Gas (LNG) is generally 95 percent methane with a few percent ethane and much lower concentrations of propane and butane. LNG liquefies at 111.6 K. Unlike many applications of cryogenics, the motivation for...
Cryogenic Electronics
Randall Kirschman, consulting physicist, Mountain View, California ExtElect@gmail.com Cryogenic electronics—the operation of electronic devices, circuits, and systems at cryogenic temperatures—has been a valuable technology for decades. Cryogenic electronics (also referred to as low-temperature electronics, or cold electronics) can be based on semiconductive devices, on superconductive devices, or on a combination...
Particle Physics: High Energy Physics
Cryogenics and High-Energy Physics 1. From symmetry magazine: http://www.symmetrymagazine.org/cms/?pid=1000627: Cryogenics is the study of how materials behave at temperatures near absolute zero. In high-energy particle accelerators, such frigid temperatures reduce the electrical resistance of wires in superconducting magnets, increasing the magnet strength and allowing faster particle acceleration. The same holds...
HTS Degaussing Systems
From the Spring 2009 issue of Cold Facts (Volume 25, Number 2): Thanks to a joint project by the US Navy and a number of industry partners, high temperature superconducting (HTS) technology is now at the heart of an advanced degaussing system aboard the USS Higgins at the naval station...
Magnetic Resonance Imaging
From http://www.superconductors.org: An area where superconductors can perform a life-saving function is in the field of biomagnetism. Doctors need a non-invasive means of determining what’s going on inside the human body. By impinging a strong superconductor-derived magnetic field into the body, hydrogen atoms that exist in the body’s water and...
Refrigeration capacity at 4.5 K for higher temp cryo systems
I would like to know how to calculate the equivalent refrigeration capacity at 4.5 K of a cryogenic system operating at higher temperature.
Need help with calculating flow rate
I have to maintain a certain mass (some tons) at 100 K by circulating in it GHe (through apposite channels). How can I calculate the flow rate needed? I suppose that the delta T (T inlet and T outlet) and the heat load on the mass are necessary. Knowing the...
What do cryogenics companies do about liability insurance?
What do cryogenics companies do about liability insurance? Is there a special type for cryogenics?
License requirements for storage and transport of cryogenic materials
Are you aware of permitting or license requirements (other than local city or town) needed for the storage or transportation of cryogenic materials?