Will “Fiber Optics Engineer” be Replaced By Robots? 🤔

Job Description

Design technologies specializing in light information or light energy, such as laser or fiber optics technology.

Job Details

• The SOC (Standard Occupational Classification) code is 17-2199.07

☝️ Information based on the reference occupation “Photonics Engineers”.

Also Known As…

• Photonics Engineers
• Technology Director
• System Engineer
• Process Engineering and Metrology Manager
• Optoelectronics Engineer
• Optical Systems Engineer
• Optical Scientist
• Optical Engineering Manager
• Optical Engineer
• Optical Design Engineer
• Laser Engineer
• Photonics Engineer
• Optomechanical Engineer
• Optics Engineer
• Optical Fabricator
• Laser Systems Engineer
• Electro-optics Engineer
• Electro-optical Engineer
• Electro Optical Engineer

Tasks for “Fiber Optics Engineer”

• Analyze, fabricate, or test fiber-optic links.
• Design photonics products, such as light sources, displays, or photovoltaics, to achieve increased energy efficiency.
• Document design processes including objectives, issues, and outcomes.
• Design, integrate, or test photonics systems or components.
• Design electro-optical sensing or imaging systems.
• Conduct testing to determine functionality or optimization or to establish limits of photonics systems or components.
• Select, purchase, set up, operate, or troubleshoot state-of-the-art laser cutting equipment.
• Design solar energy photonics or other materials or devices to generate energy.
• Train operators, engineers, or other personnel.
• Oversee or provide expertise on manufacturing, assembly, or fabrication processes.
• Design gas lasers, solid state lasers, infrared, or other light emitting or light sensitive devices.
• Assist in the transition of photonic prototypes to production.
• Write reports or research proposals.
• Determine applications of photonics appropriate to meet product objectives or features.
• Develop photonics sensing or manufacturing technologies to improve the efficiency of manufacturing or related processes.
• Analyze system performance or operational requirements.
• Design laser machining equipment for purposes such as high-speed ablation.
• Determine commercial, industrial, scientific, or other uses for electro-optical applications or devices.
• Design or redesign optical fibers to minimize energy loss.
• Develop laser-processed designs, such as laser-cut medical devices.
• Conduct research on new photonics technologies.
• Develop optical or imaging systems, such as optical imaging products, optical components, image processes, signal process technologies, or optical systems.
• Design or develop new crystals for photonics applications.
• Read current literature, talk with colleagues, continue education, or participate in professional organizations or conferences to keep abreast of developments in the field.
• Develop or test photonic prototypes or models.
• Create or maintain photonic design histories.

Related Technology & Tools

• Oxidation furnaces
• Line scan cameras
• Spectrofluorimeters
• Spectrophotometers
• Pulse generators
• Digital storage oscilloscopes DSO
• Total internal reflection fluorescence TIRF microscopes
• Rapid thermal annealers RTA
• Confocal fluorescence microscopes
• Nitrogen lasers
• Tunable dye lasers
• Chemical mechanical polishing CMP systems
• Chemical hoods
• Fluorescence lifetime spectrometers
• Femtosecond lasers
• Current monitors
• Power meters
• Isolation glove boxes
• Deconvolution fluorescence microscopes
• Semiconductor parameter analyzers
• Autocorrelators
• Optical spectrum analyzers
• Optical choppers
• Photodiode array detectors
• Photon counting systems
• Extreme ultraviolet lasers
• Optical time domain reflectometers OTDR
• Optical fiber cleavers
• Near infrared cameras
• Laser tweezers
• Laser facsimile machines
• Personal computers
• Photodetectors
• Oscilloscopes
• Scanning electron microscopes SEM
• Flow meters
• Microprobe stations
• Laser beam profilers
• Cryostats
• Tunable diode lasers
• Spin coaters
• Reactive ion etchers RIE
• Polarimeters
• Laser printers
• Laser Doppler vibrometers
• Streak cameras
• Spectroscopes
• Electron beam lithography systems
• Coherent anti-Stokes Raman scattering CARS microscopes
• Vacuum deposition systems
• Probe test stations
• Contact lithography systems
• Digital cameras
• Single photon lasers
• Infrared viewers
• Raman microscopes
• Biosafety cabinets
• Interferometers
• Near field scanning optical microscopes NSOM
• Bench refractometers
• Plasma enhanced chemical vapor deposition PECVD systems
• Optical power meters
• Xenon arc lamps
• Spectrometers
• Wavelength meters
• Digital panel meters
• Argon-ion lasers
• Atomic force microscopes AFM

• Microsoft Excel
• C#
• C++
• Microsoft Outlook
• Photon Design FIMMWAVE
• Photon Design OmniSim
• Microsoft Office
• Optiwave OptiBPM
• Microsoft Word
• Mathsoft Mathcad
• Microsoft .NET Framework
• Photon Design FIMMPROP
• Dassault Systemes CATIA
• C
• Microsoft PowerPoint
• National Instruments LabVIEW
• Adept Scientific GRAMS
• Optiwave OptiSPICE
• Optiwave OptiFDTD
• Wolfram Research Mathematica
• Pattern recognition software
• Microsoft Visio
• BPM_CAD
• Photon Design PICWave
• Apollo Photonics APSS
• Spectroscopy software
• Photon Design CrystalWave
• Microsoft Visual Basic
• The MathWorks MATLAB
• Autodesk AutoCAD
• Python