358 computer-programmer-"https:"-"Prof" "https:" "https:" "https:" "https:" "U.S" "U.S" "P" positions at Oak Ridge National Laboratory
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
, this position is a Workplace Substance Abuse (WSAP) testing designated position. WSAP positions require passing a pre-placement drug test and participation in an ongoing random drug testing program. About ORNL
-
position. WSAP positions require passing a pre-placement drug test and participation in an ongoing random drug testing program. Visa Sponsorship: Visa sponsorship is not available for this position. About
-
bioenergy. The research supports missions for multiple program offices within the U.S. Department of Energy (DOE), including Office of Science, Office of Nuclear Energy, Office of Fusion, Hydrocarbon and
-
to various ORNL organizations, other DOE contractors and vendors as requested. Provides packaging and transportation guidance and instructions (written and/or verbal) to ORNL staff to help with program/project
-
have high level of organization and computer skills, working knowledge of PC, Microsoft Office (Word, PowerPoint, Excel, Access, Adobe Acrobat). Motivated self-starter with the ability to work
-
and other technicians with operations in chemical and radiochemical laboratories. Ensure compliance with environmental, safety, health, and quality program requirements. Mentor and train technicians
-
a team of software engineers and Linux system administrators to pursue excellence in their field, develop novel solutions, and support the neutron user program. The position reports to and works
-
Abuse (WSAP) testing designated position. WSAP positions require passing a pre-placement drug test and participation in an ongoing random drug testing program. In addition, due the SCI, you may also be
-
drug testing program. About ORNL: As a U.S. Department of Energy (DOE) Office of Science national laboratory, ORNL has an impressive 80-year legacy of addressing the nation’s most pressing challenges
-
a particular emphasis on error-corrected methods for future fault-tolerant quantum computing. The algorithms will be designed to address key models of quantum materials, such as the Hubbard model