Join us and make YOUR mark on the World!
Come join Lawrence Livermore National Laboratory (LLNL) where we apply science and technology to make the world a safer place; now one of 2020 Best Places to Work by Glassdoor!
We have an opening for a Postdoctoral Researcher to perform research in theoretical physics in the area of Quantum Chromodynamics (QCD). You will play a major role in our new research direction on intrinsic heavy flavors in the proton wavefunction. Emphasis will be on code development and calculations to make this research possible. Your work will be in theory development and calculations but you will also work with experimentalists at LLNL as well as help establish collaborations with groups at other institutions planning experiments to advance this physics. This position is in the Nuclear Data & Theory Group.
- Pursue research in perturbative QCD with an emphasis on intrinsic charm in the proton.
- Pursue research on open heavy flavor and quarkonium production in p+p/p+A and e+p/e+A collisions.
- Engage with experimental collaborations.
- Make predictions for intrinsic charm signals at the Electron Ion Collider.
- Pursue independent research interests and interact with a broad spectrum of scientists internal and external to LLNL.
- Report research results through publications in peer-reviewed journals and conference presentations.
- Contribute to proposal submissions within the Nuclear Data and Theory group, including DOE Topical Collaborations in Nuclear Theory.
- Perform other duties as assigned.
- Ph.D. in physics or related field.
- Experience conducting research in perturbative QCD, particularly in heavy flavor physics.
- Experience developing methods of performing perturbative QCD calculations.
- Experience with computer programming.
- Ability to perform independent research and find innovative solutions to scientific and technical problems.
- Proficient verbal and written communication skills needed to effectively present and explain results of scientific research.
- Ability to work effectively in a collaborative and multidisciplinary team environment.
- Demonstrated publication record in peer-reviewed literature with experience presenting research results to a large audience.
- Demonstrated skills in statistical analysis applied to uncertainty quantification.
Pre-Employment Drug Test: External applicant(s) selected for this position will be required to pass a post-offer, pre-employment drug test. This includes testing for use of marijuana as Federal Law applies to us as a Federal Contractor.
Security Clearance: None required.
However, if your assignment is longer than 179 days cumulatively within a calendar year, you must go through the Personal Identity Verification process. This process includes completing an online background investigation form and receiving approval of the background check. (This process does not apply to foreign nationals.)
For additional information, please see DOE Order 472.2.
Note: This is a 2 year Postdoctoral appointment with the possibility of extension to a maximum of 3 years. Eligible candidates are those who have been awarded a PhD at time of hire date.
Lawrence Livermore National Laboratory (LLNL), located in the San Francisco Bay Area (East Bay), is a premier applied science laboratory that is part of the National Nuclear Security Administration (NNSA) within the Department of Energy (DOE). LLNL's mission is strengthening national security by developing and applying cutting-edge science, technology, and engineering that respond with vision, quality, integrity, and technical excellence to scientific issues of national importance. The Laboratory has a current annual budget of about $2.3 billion, employing approximately 6,900 employees.
LLNL is an affirmative action/ equal opportunity employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, marital status, national origin, ancestry, sex, sexual orientation, gender identity, disability, medical condition, protected veteran status, age, citizenship, or any other characteristic protected by law.