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Film Processing Jobs in Oregon (NOW HIRING)

As a Senior Engineer, Field Process, you will help expand ASM's advanced film technologies at our customer's Oregon site by developing, optimizing, and transferring innovative ALD, PEALD, PECVD ...

Must be capable of operating state of art ultrasound equipments, computer sysytems, film processors and other supportive devices. Must possess interpersonal skills and the a bility to interact ...

Senior Engineer, Field Process As a Senior Engineer, Field Process, you will help expand ASM's advanced film technologies at our customer's Oregon site by developing, optimizing, and transferring ...

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Film Processing information

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$16

$37

$55

How much do film processing jobs pay per hour?

As of Jul 2, 2026, the average hourly pay for film processing in Oregon is $37.20, according to ZipRecruiter salary data. Most workers in this role earn between $25.67 and $49.33 per hour, depending on experience, location, and employer.

What is a Film Processing job?

A Film Processing job involves developing, printing, and handling photographic or motion picture film. Workers in this role use chemical treatments and specialized equipment to turn exposed film into viewable images or negatives. They may also perform quality control checks, edit film, and ensure proper storage. This job is common in photography labs, film production studios, and historical preservation settings. Attention to detail and knowledge of processing techniques are essential for success in this field.

What are the key skills and qualifications needed to thrive in the Film Processing position, and why are they important?

To thrive in Film Processing, you need a solid understanding of photographic chemistry, attention to detail, and experience handling film and processing equipment. Familiarity with darkroom techniques, film scanners, and maintenance of processing machines is commonly required, with some roles benefiting from certifications in photographic technology. Strong organizational skills, reliability, and the ability to work efficiently both independently and as part of a team set top candidates apart. These abilities are crucial for ensuring high-quality film development, maintaining safety standards, and meeting production deadlines.

What types of career growth or advancement opportunities are available in film processing?

Film processing can offer a variety of advancement paths depending on your interests and the size of the organization. Experienced technicians may move into supervisory or quality control roles, manage entire labs, or specialize in areas such as digital restoration or archival preservation. Some professionals transition into related fields like film scanning, color correction, or photographic equipment maintenance. Many employers also provide on-the-job training for cutting-edge techniques, allowing you to expand your expertise and take on new responsibilities over time.

Senior Engineer I, Field Process

Senior Engineer I, Field Process

ASM

Hillsboro, OR

Other

Posted 11 days ago


Job description

As a Senior Engineer, Field Process, you will help expand ASM's advanced film technologies at our customer's Oregon site by developing, optimizing, and transferring innovative ALD, PEALD, PECVD, Epitaxy, and LPCVD processes. You will serve as the technical link between customer engineering teams and ASM's global Business Unit, ensuring new products and processes are introduced smoothly and successfully. Your work directly supports ASM's mission to accelerate nextgeneration semiconductor manufacturing through collaboration, technical excellence, and customer partnership.

What you will be working on

  • MS degree with relevant internship, research, or academic project experience, or PhD with relevant academic, research, or internship experience in materials science, chemical engineering, or physics.
  • Hands-on experience through internships, research, or academic projects involving processing, developing, or characterizing thin films using thermal ALD, plasma ALD, plasma CVD, epitaxy, or LPCVD reactors.
  • Demonstrated troubleshooting and structured problem-analysis skills gained through internships, lab work, or research projects (e.g., KT, FMEA, Ishikawa, 7-step methodologies).
  • Experience designing, running, and interpreting DOEs or statistical experiments in academic, research, or internship settings.
  • Familiarity with semiconductor device applications, vacuum techniques, metrology, and thin film characterization through coursework, lab work, or internships.
  • Willingness and ability to travel as needed for training and customer engagement; flexibility to support extended hours or weekends during qualifications or escalations.
  • Strong verbal and written communication skills, with the ability to clearly explain technical concepts.
  • Ability to maintain confidentiality and uphold IP boundaries.

What we are looking for

  • MS degree with relevant internship, research, or academic project experience, or PhD with relevant academic, research, or internship experience in materials science, chemical engineering, or physics.
  • Hands-on experience through internships, research, or academic projects involving processing, developing, or characterizing thin films using thermal ALD, plasma ALD, plasma CVD, epitaxy, or LPCVD reactors.
  • Demonstrated troubleshooting and structured problem-analysis skills gained through internships, lab work, or research projects (e.g., KT, FMEA, Ishikawa, 7-step methodologies).
  • Experience designing, running, and interpreting DOEs and statistical experiments.
  • Familiarity with semiconductor device applications, vacuum techniques, metrology, and thinfilm characterization.
  • Ability to travel as needed for training and customer engagement; flexibility to support extended hours or weekends during qualifications or escalations.
  • Strong verbal and written communication skills, able to explain complex concepts clearly.
  • Ability to maintain confidentiality and uphold IP boundaries.

What sets you apart

  • Internship, research, or academic experience with ASM ALD, PEALD, PECVD, epitaxy, or vertical furnace LPCVD equipment.
  • Demonstrated success optimizing deposition processes in research, pilot, or high-volume manufacturing-adjacent environments.
  • Exposure to customer-facing technical discussions, presentations, or technical reviews through internships or collaborative research.
  • Experience supporting process transfer, scale-up, or qualification activities in academic, pilot, or industrial settings.
  • Experience collaborating cross-functionally and contributing to structured action plans during technical challenges or escalations.