AI Tutor - Nuclear Physics
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About the Role
Become instrumental in shaping the next generation of AI-powered tools for scientific discovery! As an AI Tutor, Nuclear Physics, you will play a direct role in educating and refining cutting-edge AI models using RLHF (Reinforcement Learning from Human Feedback) techniques. Your deep understanding of nuclear physics will be essential in guiding these models to develop a comprehensive and accurate grasp of critical subject areas, including but not limited to:
Nuclear Reactions: Fission, fusion, scattering, and their applications in energy production, astrophysics, and medical treatments.
Radioactive Decay: Types of decay, decay chains, half-life calculations, and their implications for radioactive dating, medical imaging, and nuclear waste management.
Nuclear Structure and Models: Describing the nucleus, understanding nuclear forces, predicting nuclear properties, and exploring exotic nuclei.
Radiation Interactions with Matter: Different types of radiation, their interactions, and the principles behind their detection and shielding – crucial knowledge for radiation safety and medical applications.
Your Day to Day
Teaching: Craft clear, insightful explanations and examples to guide AI models toward a deep understanding of key nuclear physics concepts.
Evaluation: Rigorously assess the performance of AI models by designing and conducting tests that challenge their capabilities in solving nuclear physics problems.
Red Teaming: Identify potential biases, limitations, or inaccuracies in the AI models' understanding, proactively addressing them to ensure robust and reliable performance.
Collaboration: Work closely with our team of AI researchers and engineers, providing your subject matter expertise to improve training methodologies and refine the AI models' capabilities.
About You
Master's degree or Ph.D. in Nuclear Physics, or a related field, with a strong foundation in theoretical and practical aspects of the discipline. Exceptional candidates with a Bachelor's degree in Nuclear Physics or an MD specializing in nuclear medicine and significant practical experience will also be considered.
Excellent communication skills, with the ability to convey complex scientific information clearly and concisely, both verbally and in writing.
Strong analytical and problem-solving skills, with a meticulous attention to detail and a passion for scientific accuracy.
Interest in the application of AI in scientific research and a drive to contribute to the development of cutting-edge technologies.
AI Tutor - Nuclear Physics
To see similar active jobs please follow this link: Remote Education jobs
About the Role
Become instrumental in shaping the next generation of AI-powered tools for scientific discovery! As an AI Tutor, Nuclear Physics, you will play a direct role in educating and refining cutting-edge AI models using RLHF (Reinforcement Learning from Human Feedback) techniques. Your deep understanding of nuclear physics will be essential in guiding these models to develop a comprehensive and accurate grasp of critical subject areas, including but not limited to:
Nuclear Reactions: Fission, fusion, scattering, and their applications in energy production, astrophysics, and medical treatments.
Radioactive Decay: Types of decay, decay chains, half-life calculations, and their implications for radioactive dating, medical imaging, and nuclear waste management.
Nuclear Structure and Models: Describing the nucleus, understanding nuclear forces, predicting nuclear properties, and exploring exotic nuclei.
Radiation Interactions with Matter: Different types of radiation, their interactions, and the principles behind their detection and shielding – crucial knowledge for radiation safety and medical applications.
Your Day to Day
Teaching: Craft clear, insightful explanations and examples to guide AI models toward a deep understanding of key nuclear physics concepts.
Evaluation: Rigorously assess the performance of AI models by designing and conducting tests that challenge their capabilities in solving nuclear physics problems.
Red Teaming: Identify potential biases, limitations, or inaccuracies in the AI models' understanding, proactively addressing them to ensure robust and reliable performance.
Collaboration: Work closely with our team of AI researchers and engineers, providing your subject matter expertise to improve training methodologies and refine the AI models' capabilities.
About You
Master's degree or Ph.D. in Nuclear Physics, or a related field, with a strong foundation in theoretical and practical aspects of the discipline. Exceptional candidates with a Bachelor's degree in Nuclear Physics or an MD specializing in nuclear medicine and significant practical experience will also be considered.
Excellent communication skills, with the ability to convey complex scientific information clearly and concisely, both verbally and in writing.
Strong analytical and problem-solving skills, with a meticulous attention to detail and a passion for scientific accuracy.
Interest in the application of AI in scientific research and a drive to contribute to the development of cutting-edge technologies.