NASA is partnering with US companies to develop “tipping point” technologies that have the potential to significantly benefit the commercial space economy and future NASA missions, including lunar lander and deep space rocket engine technologies. Several of these partnerships involve cryogenics. A technology is considered at a “tipping point” if...

Cryo-electron microscopy, also known as Cryo-EM, is a technique for visualizing macromolecular structures which has been developed over the last two decades. Shelley Farrar reports that Cryo-EM is a form of transmission electron microscopy which permits samples to be studied at cryogenic temperatures. Biological structures such as ribosomes and mitochondria...

It is with great regret that we report the death of Dr. Roger W. Boom, emeritus professor from the University of Wisconsin and mentor and inspiration to a great many leaders in the fields of cryogenic engineering and superconductivity. Dr. Boom’s career spanned more than thirty years during which he...

A new report, sponsored by the Department of Energy (DOE) and undertaken by the National Academies of Sciences, Engineering and Medicine, argues that a domestic electron ion collider could unlock the scientific mysteries of atomic nuclei and maintain US leadership in accelerator science.

Through a grant program that encourages private industry to partner with university scientists, a research team from Florida State University’s Center for Advanced Power Systems and the Colorado-based Advanced Conductor Technologies LLC has demonstrated the first high-temperature superconducting direct current power transmission cable using ACT’s Conductor on Round Core (CORC)...

Several technology developments demonstrate the importance of cryogenics and superconductivity in the quest for eco-friendly, affordable energy generation and storage. A keynote address and a facility tour at the upcoming ICEC/ICMC conference will highlight two of these developments.