ASML is one of the world’s leading manufacturers of chip-making equipment.
Our vision is to enable affordable microelectronics that improve the quality of life. To achieve this, our mission is to invent, develop, manufacture and service advanced technology for high-tech lithography, metrology and software solutions for the semiconductor industry.
ASML's guiding principle is continuing Moore's Law towards ever smaller, cheaper, more powerful and energy-efficient semiconductors. This results in increasingly powerful and capable electronics that enable the world to progress within a multitude of fields, including healthcare, technology, communications, energy, mobility, and entertainment.
Working at ASML
We provide the world’s top chipmakers everything they need to create better performing, cheaper semiconductor chips. Simply put: we are an industry leader supporting industry leaders.
As such, you’ll be encouraged to bring your best ideas and act on them. You’ll have the freedom, trust, and support in your field to experiment and solve complex challenges. Things are rarely dull when you’re constantly breaking new ground.
But despite our fast-paced environment at the forefront of tech, we take your work-life balance and wellbeing seriously. A business is only as good as its employees.
So join us, and you’ll be a part of a global collaboration. One that promotes creativity, the inclusion of highly diverse teams, and an exciting and dynamic work environment. Join us, and you’ll be a part of progress.
Introduction
This is a graduation assignment for a master's student in a master student in Mechanical Engineering, (Applied) Physics, Material science or a related discipline who is interested in redesigning the projection grating adjustment module which is part of ASML machines.
Job Mission
Chips are produced in a series of etching and deposition steps. The pattern that is etched is typically created using an ASML machine. In order to create nanometer structures, the position and local height of the wafer has to be known accurately. Therefore, each wafer is first measured before it is exposed (patterned). Recent ASML machines are able to process two wafers simultaneously, whereby one wafer is measured while the other wafer is exposed (patterned).
During measurement, the local height map of the wafer is measured using a so called level sensor. The measured height map is used to assure correct focus at the expose side.
For correct operation of the level sensor, several optical elements (lenses, mirrors) have to be aligned after assembly of the sensor into the scanner.
Job Description
You will be working with the Mechanical Measurement Functions group to find the root-cause for hysteresis in the current projection grating, a critical part of the level sensor. This hysteresis limits the performance of the level sensor module. In order to improve this, you will:Investigate and analyze (potential) sources of hysteresis in the moduleDesign and manufacture an improved proto design setupUse your setup to prove your proposed solution(s)Your main deliverable is a redesign of the projection grating adjustment module, whereby the hysteresis is decreased by a factor of 2 or more.
Education
You are a master student in Mechanical Engineering, (Applied) Physics, Material science or a related discipline.
You are creative, curious, goal oriented and capable of working independently. You have good communication skills and apply critical thinking to challenge and improve the status quo. You are fluent in English, both verbally and in writing.
This is a graduation internship with duration of 6+ months, for 5 days a week. The start date is as soon as possible.
Please keep in mind that we can only consider students (who are enrolled at a school during the whole internship period) for our internships and graduation assignments.
ASML: Be part of progress
We make machines that make chips – the hearts of the devices that keep us informed, entertained and safe; that improve our quality of life and help to tackle the world’s toughest problems.
We build some of the most amazing machines that you will ever see, and the software to run them. Never satisfied, we measure our performance in units that begin with pico or nano.
We believe we can always do better. We believe the winning ideas can be from anyone. We love what we do – not because it’s easy, but because it’s hard.
Students: Getting ready for real-world R&D
Pushing technology further is teamwork, and our R&D team is more than 5,500 people strong, with major sites on three continents. Dozens of diverse, interdisciplinary teams work in parallel to meet a challenging development schedule.
In such an environment, your colleagues may be sitting next door, or they could be thousands of kilometers away in a different country, or even working for a different company.
An internship at ASML is your opportunity to get to know this world of industrial-strength R&D and get a feel for that excites you most. Will you design a part of the machine, or make sure it gets built to the tightest possible specifications? Will you write software that drives the system to its best performance, or work side-by-side with the engineers of our customers in a fab, optimizing a system to the requirements of the customer?
What ASML offers
Your internship will be in one of the leading Dutch corporations, gaining valuable experience in a highly dynamic environment. You will receive a monthly internship allowance of 500 euro (maximum), plus a possible housing or travel allowance. In addition, you’ll get expert, practical guidance and the chance to work in and experience a dynamic, innovative team environment.
Education Backgrounds: |
Electrical Engineering Mechanical Engineering Physics |
Specialties: |
Manufacturing Mechanics MEMS Research (R&D) Semiconductor Physics |
Education Level: |
Undergraduate (Bachelors) |
Experience: |
0 - 2 years |
Languages spoken: |
English |
Job Location: | Veldhoven, Netherlands |
Type: Internship
Deadline: 21st December 2024
Job reference (ID): 15203
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