The Doctor of Philosophy (Ph.D.) in Physics at O. P. Jindal University is the highest academic qualification in the field, focused on creating new scientific knowledge through advanced research. The course blends theoretical mastery, experimental precision, and innovative thinking, producing scholars capable of pushing the boundaries of science. With specialization in areas like Luminescence, Materials Science, students engage in problem-solving, critical analysis, and experimental methodologies to address modern scientific challenges. A Doctor of Philosophy (Ph.D.) in Physics is a rigorous, research-intensive doctoral program that focuses on advanced concepts in theoretical, experimental, and applied physics. It aims to develop independent researchers who contribute to scientific knowledge and innovation in academia, industry, or national laboratories.
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Acquire basic in-depth and advance knowledge by critically applying and comprehensive understanding of methodologies to address issue and question of a science discipline and attain specialization in a particular domain.
Apply theories, methodologies, knowledge, critical thinking and inductive and deductive reasoning to design and drive research projects with appropriate hypothesis, experimental design, simulation, etc.
Acquire proficiency in oral and written communication skills to comprehend and write effective reports, design documents, make effective presentation, and give and receive clear instructions.
Acquire the knowledge of ethics and values to inculcate fair practices throughout their professional life.
Develop and apply knowledge of science and technology, project management and finance principles, in a multidisciplinary setting, to carry out meaningful research and project work.
Interact with people from diverse backgrounds as both leaders/mentors and team members with integrity and professionalism.
PSO 1:Inculcate self-direction and originality in developing new theories, planning and conducting experiments, and developing practical research skills in tackling and problem-solving ability.
PSO 2: Understanding the foundational empirical principles of Solid State Physics and Material characterization techniques, especially in respective fields of research.
PSO 3: Developing knowledge of the literature and a comprehensive understanding of scientific methods and techniques applicable to their own research.
PSO 4: Develop the ability to critically evaluate current research and research techniques and give outputs in the application areas of current emerging technology.