The Integrated Master of Science in Physics Engineering provides the following:

• Deep knowledge of physics, its technological and engineering applications, based on research, innovation and solid professional competencies
• The capacity to understand and resolve new challenges in ever-widening and multi-disciplinary contexts, whether in the service of investigation or specialised professional practice
• The ability to integrate knowledge, deal with complex questions, develop solutions or provide opinions in situations with limited or incomplete knowledge, including reflections about the implications and social and ethical responsibilities that these solutions or judgements imply
• The capacity to clearly and unambiguously communicate your conclusions, knowledge and underlying logic, whether to specialists or laypeople
• The aptitude to continually and autonomously pursue lifelong learning

The Integrated Master of Science in Physics Engineering trains students to:

• Carry out engineering duties, in particular those based on a thorough understanding of the specialised areas in physics engineering such as materials, micro/nano-equipment, spintronics, optics, optoelectronics, lasers, and instrumentation, whether in their fundamental or applied aspects
• Achieve command of advanced experimental techniques in materials, optoelectronics and lasers
• Arrive at full competence and autonomy in the design, installation and demonstration of said techniques and equipment
• Obtain knowledge and skills regarding modelling of engineering and physics systems as well as that about the numerical and computational techniques linked to their general applications
• Achieve a broad and refined vision of the fundamentals and the role of advanced technology and technological innovation whilst acquiring skills needed for technology management and R & D
• Acquire the ability to study and design computational and/or experimental projects bringing together skills from the various fields (basic science, engineering, specialised studies and complementary sciences) oriented to applications such as those in meteorology, health and biology, information and telecommunication systems, cryogenic and high vacuum technology, functional materials and micro/nano equipment, sensors and actuators