In your career, let’s prove what’s possible.
- Mechanische Montage und Inbetriebnahme von Anlagen für die Halbleiterfertigung
- Montage von chemischen Verbindungen
- Strukturierte Diagnose und Problemlösung
- Durchführung der definierten Testschritte gemäß internem Testprotokoll und Sicherstellung der Qualitätsstandards
- Aktive Teilnahme bei der Übergabe von Entwicklungsprojekten an die Produktion
- Aktiver Wissensaustausch (z. B. interne Schulungen, Lieferantenschulungen)
- Überprüfung der Dokumentation, des Materials und der eventuellen Abweichungen
- Kontinuierliche Verbesserung der Produkte und Arbeitsabläufe (z.B. Dokumentation, interne Testaufzeichnung usw.) durch aktive Kommunikation und Zusammenarbeit mit der internen Kunden und Lieferanten
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Your future responsibilities
- Develop semi-manual and automated assembly processes for the integration of electronic and optical devices on various handling systems.
- Test, debug and document new processes and recipes.
- Perform tasks according to project requirements and develop standard assembly processes, contract research services.
- Provide expertise and solutions to assembly related projects.
- Maintain and repair various assembly machines.
- Assist in the selection and procurement of machine parts.
- Set up and carry out measuring and testing procedures.
- Writing reports and presenting project findings.
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Your future responsibilities
- Technology development for MEMS-based devices in various fields such as optics, acoustic, inertial sensors from concept to prototype.
- Development and implementation of DOE to improve device performance.
- Microfabrication and prototyping in cleanroom facility by using 200 mm wafer level technology.
- Advanced testing of developed MEMS devices (electrical, mechanical, acoustic, …).
- Scientific communication / reporting of research results.
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Your future responsibilities
- Technology development for RF-based magnetic devices, specifically circulators, from concept to prototype.
- Collaborate with process engineers to develop magnetic devices fabrication processes in an R&D clean room facility.
- Microfabrication and prototyping in cleanroom facility from small size samples up to 200 mm wafer level technology.
- Advanced characterization and testing of developed RF devices (electrical, structural, magnetic, …)
- Scientific communication, reporting of research results, documentation, generating new intellectual property including patent applications, writing of proposals.
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Your future responsibilities
- Responsibility for lithography systems, mainly track and exposure tools
- Develop new lithography processes
- Collaborate with research teams within SAL to fabricate state of the art research vehicles
- Ensure stable processes and equipment run for the lithography department
- Evaluate new processes and equipment
- Stay current with industry advancements and emerging technologies in lithography and semiconductor manufacturing.
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Your future responsibilities
- Responsibility for dry etch semiconductor fabrication equipment
- Develop new dry etch processes for new materials
- Collaborate with research teams within SAL to fabricate state of the art research vehicles
- Ensure stable processes and equipment run for the dry etch department
- Evaluate new processes and equipment
- Stay current with industry advancements and emerging technologies in lithography and semiconductor manufacturing.
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Your future responsibilities
- Lead the design, fabrication, and technological advancement of metaoptics, wafer-level optics, and photonic MEMS, from initial concept to prototype development.
- Perform metaoptics and wafer-level optics fabrication using cleanroom facilities.
- Design, execute, and analyze DOE to enhance device performance.
- Execute small-scale fabrication and prototyping for metaoptics, wafer-level optics and photonic MEMS devices, including lithography, nanoimprint lithography, thin film deposition, and etching, utilizing 200 mm wafer-level technology.
- Perform testing of developed metaoptics and wafer-level optics.
- Conduct quality control and document data for statistical process control.
- Communicate and report research findings to both scientific and non-scientific audiences.
- Publish research results in scientific conferences and journals.
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Your future responsibilities
- Evaluation of new projects in terms of feasibility and resources
- Introduction of new technologies, flows and products
- Fabrication project management
- Build quality procedures and control tables
- Interface between internal/external partners to the clean room team
- Interaction and communication with the process team, PMs, business development, QM, etc.
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Your future responsibilities
- Development of magnetron sputtering processes for piezoelectric nitrides (AlN, AlScN, AlXN) on wide band gap substrates (SiC, GaN) with a state-of-the-art cluster tool
- Design of layer stack and process development for seed/buffer layers and metallic electrodes
- Thin film structural and functional characterization (incl. XRD, ellipsometry, AFM, piezoelectric characterization)
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Your future responsibilities
- Development of new dry etch processes for new materials with a state-of-the-art etching tool
- Thin film surface characterization (incl.SEM, EDX, ellipsometry, AFM, XPS)
- Design and execution of advanced experiments, data analyses, and process improvements
- Collaborate as part of the Thin Film Technologies Research Unit in Microsystems Division and SAL Microfab Division in ongoing projects by performing state-of-the-art investigations on dry etch processes and thin-film technology for diverse MEMS applications and beyond
- Understanding the scientific aspects of dry etch processes on the targeted material, and using them to improve the processes
- Performing data analysis using analytical calculations, modelling, and standard statistical methods
- Generating innovative ideas to improve etching processes.
- Working in advanced ISO5 clean room facility
- Project management
- Scientific communication, reporting of research results and drive technical innovation and IP generation
- Active contribution in the acquisition of new industrial, funded or service projects
- Applying scientific methodologies to the development of dry etch processes
- Following scientific methodology in analyzing and reporting of results
- Driving scientific publications (peer-reviewed papers, participation to conferences) regarding dry etch processes
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In your career, let’s prove what’s possible.
- Finance support based on specific requirements
- Asset count – physically count all capitalized Villach assets
- Support during monthly and quarterly closing
- Support in Accounts Payable
- Support in preparing the Year End Closing
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Your future responsibilities
- Support for managing parts of the power electronics laboratory infrastructure:
- Electronics CAD library management (symbols, footprint and 3D model database).
- Maintenance of laboratory equipment and responsible for managing electronic stock parts.
- Laboratory logistics support, managing and installing new equipment.
- Support scientists and students in research projects focusing on power electronic systems for various applications with:
- Preparation and execution of component and material orders.
- Contact with suppliers and distributors for electronic components.
- Being central contact person for students and scientists for processing orders.
- Assistance for administrative tasks e.g. documentation of research projects, laboratory setups and measurement series; documentation support of meetings…
- Depending on your knowledge, experience and interests, part of the following activities can be additionally expected:
- Electrical and mechanical engineering tasks (SMD soldering, manual soldering, preparing cables and connectors)
- Assembly of electronic circuits and laboratory setups.
- Possibility of contributing to publications in worldwide leading conferences and journals.
- Attending workshops and/or tutorials.
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In your career, let’s prove what’s possible.
- Work in a cleanroom laboratory as part of the Process Engineering team supporting new product development, characterizing current process
- applications, and performing customer demos
- Operational proficiency of clean processing equipment and wafer metrology tools
- Along with engineering team, prepare equipment and execute test plans
- Analyze and interpret data to draw inferences and make recommendations
- Perform baseline qualifications of lab tools, identify problems, and work with appropriate team to resolve issues
- Assist engineers in execution, data collection and test reporting of customer demos
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Your future responsibilities
- As a Senior Research Engineer you will be responsible for the mechanical modelling of power electronic components, modules and devices as well as the analysis of mechanical and thermal aspects for high power density power electronic systems.
- You will work in close collaboration with other experts in the Power Electronic Division which will complement your work from an electrical system perspective. You will model loss densities in the power electronic components, optimize and design thermal interfacing as well as cooling structures with new substrate materials and work on 3D cooling integration to enable the most compact inverter and converter designs (see project example below). Your simulation work will range from steady-state thermal simulations up to very complex CFD analysis and cooling system optimization having all mechanical CAD design options for the prototype always in your hands. Collaborating with scientists from many different fields will enable you to optimize, design and build the most compact prototypes achieving highest power densities.
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Your future responsibilities
- As a Research Engineer you will be responsible for the automated code-generation workflow for the next generation of highest efficiency and power electronic systems.
- You will work in close collaboration with other experts in the Power Electronic Division which will complement your work from a topology optimization and control development system point of view. You will contribute to research projects (see example below) by defining MCU requirements, digging deep into MCU peripherals, understanding control requirements and maping them the available MCU hardware resources. Finally, you will implement control algorithms using different toolchains in selected MCU platforms and test your implementation in the lab with hardware in the loop test systems and real power electronics hardware. Collaboration with scientists from many different disciplines will enable you to optimize and implement code in order to operate the most efficient converter prototypes achieving highest power densities.
- In the DC-Microgrid project you work on:
- Developing innovative DC/DC converter technologies for varying voltage levels with advanced power semiconductor devices and new materials for magnetics design.
- Enhancing system efficiency, modularity and scalability in industrial DC-grid applications.
- Research on improving methods for energy flow optimization, protection and safety measures, EMI and stability investigations including subsystem interactions for advanced converter systems.
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In your career, let’s prove what’s possible.
- Develops, monitors and supports EHS functions to ensure compliance and continuous improvement. Works collaboratively with stakeholders, teammates, and other support resources.
- Leads projects to address EHS AOP objectives.
- Owns EHS programs that are subject to significant change, re-development, or improvement.
- Capable of motivating stakeholders to meet commitments towards EHS objectives.
- Capable of project planning, prioritization and achievement to goals and schedule.
- Makes interpretations to EHS regulations and protocols in alignment with EHS leadership.
- Decides and aligns on methods for implementing EHS initiatives and the parameters of those initiatives.
- Accountable to the objectives owned by the function and applicable area.
- Manages environmental permits for air, wastewater, stormwater, etc. manages reporting, permit compliance, and regulatory inspections.
- Manage the chemical safety and hygiene plan, including all aspects related to chemical management, chemical exposure monitoring, exposure threshold limit determinations, and risk / assessment mitigation.
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Your future responsibilities
- Lead R&D efforts on fabrication of magnetic-based RF microsystems, like circulators, antennas, or inductors, aiming for novel device innovations and industrial process developments with 200-300 mm pilot line capabilities.
- Technology development for RF-based magnetic devices, from concept to prototype
- Collaborate with process engineers to develop magnetic RF device fabrication processes in an TRL 1-6 R&D cleanroom environment.
- Actively form the R&D roadmap of the research unit on magnetic RF microsystems and coordinate inter-unit collaborations with the RF-design teams.
- Participate in building up relevant infrastructure in the cleanroom and the magnetic lab.
- Initialize and manage large projects and cooperations with the industry as well as national and international funding program participations (HE, FFG, Chips JU, ...)
- Networking and acquisition of international partners from industry and academia, dissemination of results at respected conferences and in high-level journals, help to make SAL and MMT internationally renowned in the field.
- Participate in the daily project work which can include microfabrication, simulation, measurements, meetings with project partners, documentation, scientific article writing, or some administrative work.
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Your future responsibilities
- Development of advanced integrated photonics components and circuits:
- Conducting literature reviews
- Developing design concepts for functional optical and acoustic components
- Utilizing dedicated photonics and multi-physics simulation tools (e.g., Ansys Lumerical, Comsol, Matlab)
- Creating layouts of complex photonic integrated circuits (e.g., Luceda, IPKISS, Python)
- Developing dedicated fabrication processes
- Characterizing photonic integrated components
- Disseminating research results through peer-reviewed journals and participation in international conferences
- Reporting results and communicating with our industrial partner
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Your future responsibilities
- Working in the ISO5 clean room environment
- Performing experimental work on Plasma etching equipment
- Performing characterization
- Design of experiments
- Participation in plasma process simulation and modeling
- Writing reports and scientific papers
- Conference participation
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Your future responsibilities
- University degree (Diploma, Magister, Master’s) in Physics/Chemistry/Materials Science (solid state physics, chemical engineering, physical chemistry, materials science/physics/chemistry, or related) completed with above-average results*.
- Previous experience in thin film deposition and characterization.
- Excellent experimental and analytical skills.
- Strong interest in applied research, creativity in contributing ideas and eager to engage with the ALD community .
- Excellent English communication skills in written and oral form.
- Preferred qualifications:
- prior experience with atomic layer deposition
- knowledge on nitride materials
- characterization skills: XRD, SE, AFM, SEM, XPS,…
- knowledge on plasma processes
- previous experience with peer-reviewed publishing of scientific results*see requirements of TUM admission Requirements - TUM Graduate School
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Your future responsibilities
- Design and development of novelmid-infraredphotonic integrated circuits (PICs) with a focus on passive components (low-loss waveguides, efficient splitters/combiners, high-speed modulators, optical filters) for sensing applications
- Explore novel concepts & thinfilm-based material systems
- Integrate (monolithic, hybrid) the passive components with active mid-infrared lasers and detectors based on well-known III-V material systems (InP, InAs, GaSb)
- Develop fabrication processes for the photonic devices in the R&D cleanroom facilities and in collaboration with the process engineers
- Conduct electro-optical testing of the devices for optimizing the design
- Participate in first sensing experiments with external partners from academia and industry
- Be part of the scientific dissemination of the results (conferences, journal papers, patents)
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Your future responsibilities
- Work or spin-based quantum systems in wide-band gap semiconductors for magnetometry and inertial sensing applications
- Implementation of several quantum protocols for initialization and readout of electron and nuclear spins
- Development of required magnetic, optical, electrical and RF subsystems
- Experimental work, proof of principle experiments, feasibility studies
- Building demonstrators, data processing
- Scientific dissemination (conference proceedings, journal papers, patents)
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Your future responsibilities
- Experience in Electrical and Magnetic characterization and measurements (use of oscilloscopes, spectrum analyzers, vector network analyzers, sourcemeters, electromagnets, vibrating sample magnetometer, magneto-optical Kerr effect…).
- Background in Experimental Physics, Engineering Physics, Electrical Engineering, and related fields.
- Knowledge in Material Science, materials properties and characterization.
- Experience in Cleanroom environment and microfabrication facilities (thin film deposition, lithography, etching…).
- Knowledge in simulation tools and software, with programming skills (e.g. Python, COMSOL, etc).
- Excellent English level is mandatory.
- Ability to clearly express yourself, hears others and keep open-minded discussions.
- Good presentation skills, with the will to perform scientific dissemination.
- Proactive and curious.
- Strong interest in developing applied science.
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In your career, let’s prove what’s possible.
- Design, develop, troubleshoot, and debug software programs for enhancements and new products.
- Implement new customer requirements and features in our existing application.
- Maintain and enhance existing code base by investigating and resolving problem areas.
- Demonstrate solutions through clear documentation, flowcharts, and well-structured code.
- Collaborate with cross functional teams to design and develop software programs.
- May visit customer site to provide support and have ability to travel (total is less than 10%).
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Your future responsibilities
- Development of novel magnetic resonance imaging setup for quantum vector magnetometry using nitrogen vacancy defects in diamond
- Laser tweezing, micro- and nanoparticle manipulation
- Applied optics design and experiments, optical engineering
- Experimental work, proof of principle experiments, feasibility studies
- Data processing, programming and automation of lab setups
- Scientific dissemination
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Your future responsibilities
- Perform literature review (scientific articles, patents, etc.)
- Investigate the effect of the developed encapsulation approaches on the electrical and mechanical properties of the printed electronic system
- Electrical, and mechanical characterization and analysis of the printed electronic system.
- Provide recommendations to improve the system's performance.
- Perform data analysis and prepare reports.
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Your future responsibilities
- Lead and advance the Integrated Photonics Technologies research, overseeing a team of 10-15 researchers.
- Strategically plan and allocate resources for the Research Unit, ensuring alignment with organizational goals.
- Provide mentorship, scientific guidance, and supervision of international researchers.
- Corporate and profit responsibility.
- Initiate and oversee collaborative projects with academia and industry.
- Expand the research unit’s international network through partnership acquisition and ongoing network activities.
- Shape the research program of the Research Unit, creating project portfolios together with the division head.
- Grow the research unit towards research excellence and economic impact.
- Create a motivated, collaborative, and relaxed atmosphere for scientists to thrive in.
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In your career, let’s prove what’s possible.
- Design, build and prepare test fixtures\equipment and executes the test followed by data evaluation
- Test set-up and execution for
- Components/Devices
- Systems/Tools
- Execution of tests
- Start-up of test stand
- Handling of related components
- Operating various measurement systems
- Structured diagnostic and problem-solving methods must be used during start-up and LAB testing
- Apply statistical methods for specification of reliability tests and data evaluation
- Create test documentation based on our standards and meaningful presentation of results
- Active cooperation with other colleagues on test stand or tool in our test floors or in our clean room laboratory and handling of acids
- Forward change requests / improvement suggestions to the developer in charge
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In your career, let’s prove what’s possible.
- Develop and characterize new wafer clean wet processes.
- Develop and sustain new processes and process improvements to reduce production costs and increase yields.
- Compile and analyze test data to establish next steps in process development and determine appropriate limits and variables for process specifications.
- Define process specifications and equipment requirements.
- Collaborate internally to plan, collect data, analyze results, and report on customer demos for new and existing process applications.
- Partner cross-functionally and with customers to understand roadmaps, process flow, inflection points, requirements, and business challenges.
- Demonstrate strong communication skills and teamwork ability.
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