Job Title: Laser Test Engineer
Salary: up to £35k DOE
Location: Rugby
Hours: 37.5 hours per week Monday to Thursday 8.30am to 5.30pm and 8.30am to 1.00pm on Friday
Purpose of the Laser Test Engineer role:
Our client is looking for a Laser Test Engineer to join the team to test laser systems in a laboratory production environment. The engineer will be primarily responsible for optical assembly, test, characterisation, calibration, and documentation of a range of high-power diode laser test stations as part of the production process.
Main duties and responsibilities of a Laser Test Engineer:
1. Carrying out high power laser diode testing including power, spectrum, near-field and far-field beam profiling, polarization, and thermal performance on a variety of mounted and unmounted laser diode bars and chips.
2. Development and documentation of operating procedures for high power diode laser testing stations.
3. Development, execution, and documentation of calibration procedures for high power diode laser testing stations.
4. Performing the set-up, calibration, testing, and troubleshooting of circuits, components, instruments, and mechanical assemblies.
5. Analysis of testing data and presentation of complex results in a consistent and concise reporting format.
6. New test station and methodology development including integration of equipment hardware and software.
7. Manage test scheduling and results database.
8. Continuous focus on improvement of test station accuracy, repeatability, and productivity.
Experience/knowledge requirements for a Laser Test Engineer:
1. Ability to work as part of a team and to high quality standards.
2. Excellent oral and written communication skills.
3. Ability to work proactively and independently whilst focused on deadlines.
4. Experience with lasers would be beneficial, but practical electronic/mechanical assembly and test engineering experience would be advantageous.
5. Working knowledge of measurement instrumentation such as optical power measurement heads, pulsed and CW current sources, micro-positioning, and scanning systems.
Please contact Amy Hutchinson for more information.
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