243 computer-security-"https:"-"https:"-"https:"-"UCL" positions at Oak Ridge National Laboratory
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
material interaction. Maintain a high level of scientific productivity. Ensure compliance with environment, safety, health, and quality program requirements. Perform work according to specific rules and
-
cable. Abide by the principles of Safe Conduct of Research including being personally responsible for ensuring safe operations by raising safety concerns, using a questioning attitude, considering hazards
-
the execution of ORNL’s broader mission to accelerate scientific discoveries and their translation into energy, environment, and security solutions for the nation. Major Duties/Responsibilities: Conduct
-
reduction/analysis systems used in scientific research. Knowledge of cyber security policies and best practices relevant to scientific computing and control system environments, including DOE or other
-
other team members Abiding by the principles of Safe Conduct of Research including being personally responsible for ensuring safe operations by raising safety concerns, using a questioning attitude
-
Requisition Id 15649 Overview: We are seeking a Quality Representative (QR) who will focus on implementing Quality program requirements in support of Research and Development (R&D) within
-
radiopharmaceuticals, conducting basic scientific research, and ensuring our national security. The position will integrate into an existing research team, focusing on plasma and ion beam science and technology to
-
, conducting basic scientific research, and ensuring our national security. The position will integrate into an existing research team, focusing on plasma and ion beam science and technology to enhance isotope
-
) Group in the Cyber Security Division of the Information Technology Services Directorate at Oak Ridge National Laboratory (ORNL). Major Duties/Responsibilities: Specific responsibilities include, but
-
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