the world's foremost RI beam facility
(PRWeb UK) June 9, 2010
The world’s most powerful beam of heavy ions has enabled Japanese scientists and their international collaborators to uncover 45 new neutron-rich radioisotopes in a region of the nuclear chart never before explored. In only four days, a team of researchers at the RIKEN Nishina Center for Accelerator Based Science (RNC) have identified more new radioisotopes than the world’s scientists discover in an average year.
Radioactive isotopes (RI) or radioisotopes, unstable chemical elements with either more or fewer neutrons than their stable counterparts, open a door onto a world of nuclear physics where standard laws break down and novel phenomena emerge.
The RNC’s Radioactive Isotope Beam Factory (RIBF) was created to explore this world, boasting an RI beam intensity found nowhere else in the world. Accelerated to 70% the speed of light using RIBF’s Superconducting Ring Cyclotron, uranium-238 nuclei are smashed into beryllium and lead targets to produce an array of exotic radioisotopes believed to play a central role in the origins of elements in our universe.
To collect, separate and identify these isotopes, the researchers made use of BigRIPS, an RI beam separator whose powerful superconducting magnets have been carefully tuned to detect even the rarest phenomena under low-background conditions. Radioisotopes discovered using BigRIPS span the spectrum from manganese (Z = 25) to barium (Z = 56) and include highly sought-after nuclei such as palladium-128, whose “magic number” of neutrons grants it surprisingly high stability.
While greatly expanding our knowledge of nuclear physics, the newly-discovered radioisotopes provide essential clues about the origins of atoms in our universe. Further improvements at RIBF promise to dramatically boost heavy-ion beams to more than 1000 times their current intensities, unleashing thousands of new radioisotopes and heralding a new era in high-energy nuclear physics.
For more information, please contact:
Dr. Toshiyuki Kubo
Dr. Naohito Inabe
Dr. Tetsuya Ohnishi
Research Instruments Group
RIKEN Nishina Center for Accelerator Based Science
Tel: +81-(0)48-467-9696 / Fax: +81-(0)48-461-5301
Ms. Tomoko Ikawa (PI officer)
Global Relations Office
Tel: +81-(0)48-462-1225 / Fax: +81-(0)48-462-4715
About RIKEN Nishina Center for Accelerator Based Science
Named after the father of modern physics in Japan, Yoshio Nishina, the RIKEN Nishina Center for Accelerator Based Science (RNC) carries on a long tradition of pioneering accelerator science, boasting the world’s most powerful facilities for heavy ion physics. Since its inauguration in 2006, these facilities have drawn the attention of nuclear physicists around the globe with their promise to reveal a world of physics that exists only in the hottest stars, and in earliest stages of our universe.
Using its world class facilities, the RNC has set out to tackle two main goals: firstly, to greatly expand our knowledge of the nuclear world into regions of the nuclear chart presently beyond our grasp, and secondly, to apply this knowledge to other fields such as nuclear chemistry, bio and medical science, and materials science. Through international collaborations with researchers around the world, the center is uniquely positioned to succeed in achieving these goals in the years to come.
About The Radioactive Isotope Beam Factory
Central to achieving the RNC’s core missions is the Radioactive Isotope Beam Factory (RIBF), a next-generation heavy-ion accelerator facility located at the Wako campus of RIKEN, Japan’s flagship research organization. Construction on the facility, which began in 1997, added to an existing world-class heavy-ion accelerator complex two more ring cyclotrons and the world’s first superconducting ring cyclotron, as well as a powerful superconducting fragment separator known as BigRIPS. With the new systems in place, the facility is able to accelerate beams of any element up to uranium to 70% the speed of light. By smashing these nuclei into beryllium and lead targets to knock out neutrons and protons, researchers are able to produce radioisotopes never before seen or studied.
Since 2007, when RIBF researchers made their first discovery of the new radioisotopes palladium-125 and palladium-126 using a U-238 beam, the beam intensity has been increased by a factor of more than 50 thanks to the fine tuning of the cyclotrons, setting a new world standard for heavy ion beams. When fully complete, the RIBF will boast intensities more than 1000 times their current levels, providing a unique opportunity to artificially produce and experimentally study almost all nuclides that have ever existed in the universe.
Quote from Dr. Toshiyuki Kubo, head of the Research Instruments Group:
“The group of researchers at the center of these latest radioisotope discoveries has been working on the design and construction of the BigRIPS facility for more than ten years. As someone directly involved in this research, I have to say that I am yet again amazed at the capabilities of our team members and at the RI beam production and detection capabilities of BigRIPS.
The former director of the Nishina Center used to often say that in the RIBF, he aimed to create “the world's foremost RI beam facility”, and I think we all had great confidence that this would happen. I look forward to further discoveries of radioisotopes in unexplored regions of the nuclear chart, and to more applications of RI research in nuclear physics and nuclear astrophysics.”