Applied Materials is a global leader in materials engineering solutions used to produce virtually every new chip and advanced display in the world. We design, build and service cutting-edge equipment that helps our customers manufacture display and semiconductor chips – the brains of devices we use every day. As the foundation of the global electronics industry, Applied enables the exciting technologies that literally connect our world – like AI and IoT. If you want to push the boundaries of materials science and engineering to create next generation technology, join us to deliver material innovation that changes the world. What We Offer Location: Santa Clara,CA You’ll benefit from a supportive work culture that encourages you to learn, develop, and grow your career as you take on challenges and drive innovative solutions for our customers. We empower our team to push the boundaries of what is possible—while learning every day in a supportive leading global company. Visit our Careers website to learn more. At Applied Materials, we care about the health and wellbeing of our employees. We’re committed to providing programs and support that encourage personal and professional growth and care for you at work, at home, or wherever you may go. Learn more about our benefits . Applied Materials’ Plasma Product Modeling (PPM) team in the Silicon Product Group is searching for interns to join our team in summer 2026! The PPM team closely works with the engineering groups in our business units to design the next generation plasma processing tools. The summer interns will be involved in projects related to forward-looking research and development, plasma and plasma – surface interaction model development, understanding the atomic-scale physics at surfaces in contact with plasma, and machine learning methods to accelerate plasma product and process design. Potential projects could include: Understanding and designing new plasma processing systems Use molecular dynamics simulation to understand fundamental processes at surfaces in contact with plasma Developing new capabilities in our internal plasma and feature scale models Use plasma and surface physics models to understand leading-edge plasma etch and deposition experiments Apply in-house plasma models to understand complex plasma behavior Explore machine learning methods to accelerate how 2-dimensional (2D) and 3D plasma and feature-scale models are developed and used