PpbStep into a career with ASM, where cutting edge technology meets collaborative culture. /b /p pFor over 55 years ASM has been ahead of what’s next, at the forefront of innovation and what’s technologically possible. With more than 4,500 ASMers representing 70 nationalities, our people and our advanced semiconductor devices are playing a crucial role in trends such as 5G, cloud computing, AI, and autonomous driving. But we’re more than just a tech company. We value diversity, inclusion and sustainability as we strive to make a positive impact on the world. Our development programs help support your growth, shaping your future and pushing the boundaries of innovation to unleash potential. /p pbSenior Engineer, Process Engineering | Global RD Process Engineering Program /b /p pAs a Senior Engineer, Process Engineering within ASM’s Global RD Process Engineering Program, you will develop next‑generation semiconductor technologies. For the first 18 to 24 months, you will onboard into a comprehensive development program, combining structured learning with hands‑on work using ASM’s world‑leading semiconductor processing equipment. This phase is designed to accelerate technical depth, process mastery, and integration into ASM’s global RD community. /p pFollowing the initial 18 to 24 months in the Global RD Process Engineering Program, you will relocate to one of ASM’s state‑of‑the‑art RD centers in Japan, Korea, or the United States (Arizonab) /b()) for a permanent role. You will apply the technical depth and process expertise you have developed to advance new technologies at the core of one of ASM’s key business units, working closely with leading scientists, engineers, and product teams to translate innovation into industrial impact. /p h3Take a Closer Look At The Role /h3 ul liWork with semiconductor processing equipment to research, develop and optimize unit processes focused on the deposition of metal and dielectric films via ALD, PEALD, Epitaxy, and/or PECVD. /li liDevelop innovative ideas, staying abreast of state‑of‑the‑art processing applications in the semiconductor industry to be effective. /li liProcess consulting, including writing technical papers on advanced process applications and Intellectual Property creation. /li liParticipate in and drive technical problem‑solving sessions using the related scientific method and industry tools, such as Ishikawa diagrams. /li liDesign and conduct experiments, in addition to measuring and interpreting experimental output, aimed at fulfilling stated objectives using Design of Experiments (DOE) and Response Surface Methodology (RSM). /li liTroubleshoot equipment problems and is personally and actively engaged in problem via “hands‑on” modalities. /li liWork directly customers and central marketing to understand and define requirements to successfully execute and document customer demonstrations. /li liDevelop methods and techniques for integrating metal and/or oxide films into existing and future device technologies. /li liEnsure successful product transfer to customer base by performing demonstrations, traveling to support customer sites (up to 10% travel required), and drafting documentation regarding process development, tool operation and maintenance. /li liProduce technical papers on process, equipment, and device integration improvement strategies and presents to professional audience. /li /ul h3Qualifications /h3 ul liPhD degree in Chemical Engineering, Materials Science, Electrical Engineering, or Physics /li li0-7+ years of combined education, research, and work experience with: ul liCure, oxidation, ALD, CVD, Epitaxy, PECVD and/or other thin film deposition. /li liMaterials characterization techniques such as XPS, SIMS, RBS, AFM, XRR, XRD, TEM, SEM and ellipsometry. /li /ul /li liKnowledge of electrical characterization techniques for CMOS devices. /li liApplication of dielectric and/or metal films for logic and memory structures. /li liTraining in CFD (computational fluid dynamics), either theoretical or practical is preferred. /li liKnowledge of electrical characterization techniques for CMOS devices is preferred /li /ul h3Skills /h3 ul liAble to independently manage complex process development projects /li liCreative problem solving with experience in developing new films for emerging applications and experience in chemistry/materials characterization. /li liUnderstand interplay between hardware design (e.g., chemical reactor design) and operation and process outputs /li liUnderstand of requirements for integration of metals as work function materials and barrier layers in FEOL and BEOL process flows /li liDemonstrated ability to develop and completely characterize deposition processes using first principles and experimental design techniques (e.g., DOE, RSM). /li liExperience with the theory, practice, and interpretation of materials characterization techniques such as XPS, SIMS, RBS, AFM, XRD, HRTEM, FESEM, Auger, Raman and ellipsometry. /li liExcellent verbal and written communication skills, with ability to clearly communicate advanced technical constructs /li /ul h3Work location transfer requirements /h3 ul liFor your first 18-24 months, you’ll complete your training at one of our flagship process development hubs in Leuven (Belgium), in or Helsinki (Finland), Upon completion, you will transfer to one of our Key Product Unit (KPU) Process teams for a permanent role in ASM in either: ul liGreater Tokyo, Japan /li liPhoenix, Arizona, US /li liDongtan Semiconductor Valley, South Korea /li /ul /li /ul h3Why join ASM? /h3 ul liBe part of ASM’s long‑term investment in RD talent, with a program explicitly designed to accelerate your career through a program designed to develop future technical leaders within the organization. /li liBe part of a globally respected, financially strong technology leader in ALD, with a strong, long‑term vision, a values‑driven culture, and a deep legacy of materials discovery and innovation backed by a defensible IP portfolio. /li liProcess Engineering at ASM is rooted in scientific rigor and technical excellence, with original thinking, teamwork, and creation of high‑impact intellectual property driving technology roadmaps and real‑world innovation. /li /ul pASM is an equal opportunity employer and considers qualified applicants for employment without regard to race, color, religion, age, nationality, social or ethnic origin, sexual orientation, gender, gender identity or expression, marital status, pregnancy, political affiliation, disability, genetic information, veteran status, or any other characteristic protected by law. /p /p #J-18808-Ljbffr