RC1. Possess and understand knowledge that provides a basis or opportunity for developing and/or applying original ideas, often in a research context.
RC2. Apply acquired knowledge and problem-solving skills in new or unfamiliar environments within broader (or multidisciplinary) contexts related to their field of study.
RC3. Demonstrate the ability to integrate knowledge and address the complexity of formulating judgments based on incomplete or limited information, including reflection on social and ethical responsibilities linked to the application of their knowledge and judgments
RC4. Communicate conclusions, as well as the underlying knowledge and rationale, clearly and unambiguously to both specialized and non-specialized audiences.
RC5. Possess learning skills that enable continued study in a largely self-directed or autonomous manner.
RCO1. Demonstrate the ability to explain the fundamental principles of the quantum world, both at a basic and technical level.
RCO10. Know the basic literature and demonstrate the ability to solve standard problems in the field of Fields and Particle Physics.
RCO11. Know the basic literature and demonstrate the ability to solve standard problems in the field of Condensed Matter Physics.
RCO12. Know the basic literature and demonstrate the ability to solve standard problems in the field of Quantum Technologies.
RCO2. Have a basic knowledge of the relevant literature in quantum mechanics and be capable of effectively reading and understanding research articles.
RCO3. Be able to initiate the development of original ideas and applications within the context of quantum physics research.
RCO4. Possess the capacity for independent research, synthesis, and be able to present in a clear and structured way complex issues related to the various areas of quantum mechanics addressed in this Master's program.
RCO5. Under supervision, demonstrate the ability to write and defend original work that meets the quality standards required for publication in high-impact indexed journals.
RCO6. Be able to identify opportunities for innovation and technology transfer in the field of quantum science and technology.
RCO7. Know the basic literature and demonstrate the ability to solve standard problems in the field of Quantum Information and Computation.
RCO8. Know the basic literature and demonstrate the ability to solve standard problems in the field of Quantum Field Theory.
RCO9. Know the basic literature and demonstrate the ability to solve standard problems in the field of Quantum Statistical Physics.
RHE1. Demonstrate proficiency in using tools for bibliographic resource searches.
RHE2. Exhibit critical capacity to read research articles and incorporate their findings into one¿s own work.
RHE3. Write and present original work in one of the official languages and in English.
RHE4. Communicate scientific concepts and results clearly and effectively to both specialized and non-specialized audiences, through presentations and publications.
RHE5. Demonstrate the ability for autonomous learning and staying current with scientific and technological advances
RHT1. Understand and apply the fundamental principles of quantum mechanics to analyze and solve problems in basic research in quantum science.
RHT2. Understand and apply the fundamental principles of quantum mechanics to analyze and solve problems in quantum technology.
RHT3. Effectively integrate into a fundamental or applied research project involving quantum aspects, and solve problems in multidisciplinary environments.
RHT4. Evaluate and select appropriate tools and techniques for research in fundamental physics.
RHT5. Evaluate and select appropriate tools and techniques for the development of technological applications based on quantum physics.
RHT6. Join a company focused on the development of quantum technologies, contributing both to research and development and to the implementation of new strategies based on the principles of quantum mechanics.
