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About OLCF
- - ORNL’s supercomputing program grew from humble beginnings to deliver the most powerful system ever seen. On the way, it has helped researchers deliver practical breakthroughs and new scientific knowledge in climate, materials, nuclear science, and a wide range of other disciplines.
- Close
OLCF Resources
- - Learn more about the OLCF’s comprehensive suite of hardware and software resources for the creation, manipulation, and retention of scientific data. For User support in using these resources, please visit the For Users section of this website.
- - Compute Systems
- - Data & Visualization Resources
- Close
R&D Activities
- - Learn more about the OLCF’s comprehensive suite of hardware and software resources for the creation, manipulation, and retention of scientific data. Please note that the For Users section of this website provides extensive information on accessing and employing these resources.
- Close
Science at OLCF
- - The Oak Ridge Leadership Computing Facility (OLCF) engages a world-class team from national laboratories, research institutions, computing centers, universities, and vendors to take a dramatic step forward to field a new capability for high-end science.
- Close
For Users
- - Contact Support
    
    Need assistance from a trained OLCF support staff member? We're here to help.
    
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    Submit a Support Ticket
    
    Email: help@olcf.ornl.gov
    
    Status Tweets: @olcfstatus
- - OLCF User Docs
- - Training
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  - Acknowledgement Statement
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- - Look here for the latest news, reports, and graphics from the OLCF, including branding tools, logos, and acknowledgement statements. You will also find archived information and resources like annual reports and operational assessments.
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Gustav Jansen

Computational Scientist - Nuclear Physics

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Contact Information

Gustav Jansen

Computational Scientist - Nuclear Physics

Center Address:

1 Bethel Valley Road
Oak Ridge, TN 37831
Mail Stop: MS6008
Bldg: 5600 | Room: C111

Contact:

jansengr@ornl.gov

+1 8652417534

Background

The theoretical study of atomic nuclei as interacting systems of protons and neutrons
has been Gustav’s main topic of interest and research for the past decade. The phenomenology
is filled with emergent phenomena that can only be described by performing numerical
experiments at a high level of accuracy and precision. His ultimate goal is to describe
atomic nuclei from the fundamental degrees of freedom, quarks and gluons, through a
series of controlled approximations with quantified uncertainties. By working towards
simultaneous improvements in the fields of many-body methods, high-performance computing,
and nuclear phenomenology, where new methods are being designed, implemented, and
applied, he hopes to make considerable contributions to develop predictive theories for
nuclear physics.

Education

2012

University of Oslo

Physics

Doctor of Philosophy (Ph.D.)

2008

University of Oslo

Computational Science

Master of Science (M.S.)

2006

University of Oslo

Mathematics

Bachelor of Science (B.S.)

R&D Activities Contributions

Center for Accelerated Application Readiness (CAAR) - In preparation for next-generation supercomputer Summit, the Oak Ridge Leadership Computing Facility (OLCF) selected 13 partnership projects into its Center for Accelerated Application Readiness (CAAR)…

Staff Activities

Committee Activity:

2016

Editor - Computer Physics Communication(CPC)

Gustav joined the editorial team of CPC in 2016 as a specialist editor in nuclear physics.

Highlights

An image of a deuteron, the bound state of a proton and a neutron

May 23, 2018

Another First for Quantum

ORNL team reaches into atoms’ depths to look at particle interactions driving nuclear stability

May 1, 2018

Nuclear Physicists Wield HPC to Uncover Magic Isotopes