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![The SNS LINAC is the most powerful proton-pulsed accelerator in the world. The SNS LINAC is the most powerful proton-pulsed accelerator in the world.](/sites/default/files/styles/list_page_thumbnail/public/cryomodule1.jpg?itok=vTrsgto0)
![Shull and Wollan Shull and Wollan](/sites/default/files/styles/list_page_thumbnail/public/Shull_Wollan_history.jpeg?itok=zutU7aC-)
![Neutrons facilities welcome 20,000th user Neutrons facilities welcome 20,000th user](/sites/default/files/styles/list_page_thumbnail/public/news/images/CG-3%20user%20Irina%20Nesmelova-0352_sm.jpg?itok=neCg30sj)
![Theoretical condensed matter physicist Cristian Batista brings advanced knowledge of theory to expand upon the experimental physics research conducted at ORNL. (Image credit: Genevieve Martin) Theoretical condensed matter physicist Cristian Batista brings advanced knowledge of theory to expand upon the experimental physics research conducted at ORNL. (Image credit: Genevieve Martin)](/sites/default/files/styles/list_page_thumbnail/public/news/images/Cristian%20Batista-7875_sm.jpg?itok=hnEVmS3b)
![ORNL will lend computational resources such as its Titan supercomputer to support the Cancer Moonshot effort. ORNL will lend computational resources such as its Titan supercomputer to support the Cancer Moonshot effort.](/sites/default/files/styles/list_page_thumbnail/public/news/images/2012-P03136.jpg?itok=THyiUKYH)
The Department of Energy’s Oak Ridge National Laboratory will add its computational know-how to the battle against cancer through several new projects recently announced at the White House Cancer Moonshot Summit.
![OLCF Vimeo Screenshot OLCF Vimeo Screenshot](/sites/default/files/styles/list_page_thumbnail/public/OLCF_Vimeo_screenshot.jpg?itok=4K2fxSf1)
While trying to fatten the atom in 1938, German chemist Otto Hahn accidentally split it instead. This surprising discovery put modern science on the fast track to the atomic age and to the realization of technologies with profound potential for great harm or great help. Altho...
![The image above shows the chain of the studied calcium isotopes. The “doubly magic” isotopes with mass numbers 40 (Ca-40) and 48 (Ca-48) exhibit equal charge radii. The first measurement of the charge radius in Ca-52 yielded an unexpectedly large result. The image above shows the chain of the studied calcium isotopes. The “doubly magic” isotopes with mass numbers 40 (Ca-40) and 48 (Ca-48) exhibit equal charge radii. The first measurement of the charge radius in Ca-52 yielded an unexpectedly large result.](/sites/default/files/styles/list_page_thumbnail/public/Hagen%20Image%5B2%5D.jpg?itok=9x4IORoE)
For decades nuclear physicists have tried to learn more about which elements, or their various isotopes, are “magic.” This is not to say that they display supernatural powers. Magic atomic nuclei are composed of “magic” numbers of protons and neutrons—collectively called nucleons—such as 2, 8, 20, and 28.
![ORNL Image](/sites/default/files/styles/list_page_thumbnail/public/psuedo%20gap.jpg?itok=0WGpKIO1)
![In conventional, low-temperature superconductivity (left), so-called Cooper pairing arises from the presence of an electron Fermi sea. In the pseudogap regime of the cuprate superconductors (right), parts of the Fermi sea are “dried out” and the charge-ca In conventional, low-temperature superconductivity (left), so-called Cooper pairing arises from the presence of an electron Fermi sea. In the pseudogap regime of the cuprate superconductors (right), parts of the Fermi sea are “dried out” and the charge-ca](/sites/default/files/styles/list_page_thumbnail/public/maier_image.png?itok=aGk3XL3v)
![Fernanda Foertter Fernanda Foertter](/sites/default/files/styles/list_page_thumbnail/public/news/images/Fernanda%20Profile%20Photo.jpg?itok=W6-WUE6Y)