ANS is committed to advancing, fostering, and promoting the development and application of nuclear sciences and technologies to benefit society.
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Division Spotlight
Reactor Physics
The division's objectives are to promote the advancement of knowledge and understanding of the fundamental physical phenomena characterizing nuclear reactors and other nuclear systems. The division encourages research and disseminates information through meetings and publications. Areas of technical interest include nuclear data, particle interactions and transport, reactor and nuclear systems analysis, methods, design, validation and operating experience and standards. The Wigner Award heads the awards program.
Meeting Spotlight
ANS Student Conference 2025
April 3–5, 2025
Albuquerque, NM|The University of New Mexico
Standards Program
The Standards Committee is responsible for the development and maintenance of voluntary consensus standards that address the design, analysis, and operation of components, systems, and facilities related to the application of nuclear science and technology. Find out What’s New, check out the Standards Store, or Get Involved today!
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Latest News
ARG-US Remote Monitoring Systems: Use Cases and Applications in Nuclear Facilities and During Transportation
As highlighted in the Spring 2024 issue of Radwaste Solutions, researchers at the Department of Energy’s Argonne National Laboratory are developing and deploying ARG-US—meaning “Watchful Guardian”—remote monitoring systems technologies to enhance the safety, security, and safeguards (3S) of packages of nuclear and other radioactive material during storage, transportation, and disposal.
F. Andersson, H. Smith, D. Anderson, M. Lisak, P. Helander
Nuclear Science and Engineering | Volume 142 | Number 2 | October 2002 | Pages 150-157
Technical Paper | doi.org/10.13182/NSE02-A2295
Articles are hosted by Taylor and Francis Online.
A consistent scheme is formulated for solving the two-way diffusion problem describing the effect of backscattering on the lateral diffusive spreading of an initially unidirectional beam of monoenergetic electrons. The potential of the method is demonstrated by presenting an approximate solution, which bridges previous solutions found in the asymptotic limits of small and large scattering lengths, respectively.
