Authentix

Scientist, Optical and Plasmonic Metasurfaces

Authentix$90K — $120K *
Technical Services
Less than 5 years of experience
Job Overview by Ladders

Qualifications

  • PhD or MSc with relevant industry experience in Physics, Photonics, Optical Engineering, Electrical Engineering, or Applied Physics focused on nanophotonics or meta-optics.
  • Strong knowledge of optical physics principles including diffraction, interference, and polarization.
  • Proficiency with simulation tools like FDTD, RCWA, and finite-element methods for optical design.
  • Skilled in scientific programming languages such as Python and MATLAB.
  • Experience in optical lab work including setup and characterization.

Responsibilities

  • Design and optimize sub-wavelength optical structures such as metalenses and metasurface filters.
  • Perform electromagnetic and optical simulations to refine device performance and meet design specifications.
  • Develop automated programming routines for simulation and optimization tasks.
  • Document design processes and results and communicate effectively with engineering teams.
  • Balance design performance and manufacturability in pixel- and system-level layouts.

Benefits

  • Occasional domestic and international travel for project collaboration.
  • Collaborative work environment within cross-functional teams.
Full Job Description
Title: Scientist, Optical and Plasmonic Metasurfaces

Work Location: Burnaby, BC, Canada

Division & Department: Technology & Innovation / NANO

Position Reports to: Software Manager

JOB SUMMARY

The Optical and Plasmonic Metasurfaces Scientist relies on knowledge of and experience with nanophotonics and meta-optics to develop sub-wavelength optical structures - including metalenses, metasurface-based optical filters, phase-gradient metasurfaces, diffractive gratings, and absorbing nanostructures - from concept through simulation to fabrication-ready design. This job requires a strong command of electromagnetic and optical simulation (such as FDTD, RCWA, and/or finite-element methods), a solid grounding in optical physics (diffraction, interference, polarization, thin-film interference, and Fourier optics), and proficiency in scientific programming (e.g. Python and/or MATLAB) for design automation, optimization, and data analysis. Knowledge in the design and numerical optimization of nano- and micro-scale optic and photonic structures, and the ability to work independentlyis required.

SUMMARY OF ESSENTIAL JOB FUNCTIONS

The essential functions listed below are representative of the functions that must be performed to satisfactorily fulfill the purpose of this job. Additional functions and duties may be assumed or assigned from time to time.
  • Design, model, and optimize sub-wavelength optical and photonic structures, including metalenses, metasurface-based optical filters, phase-gradient metasurfaces, diffractive gratings, and absorptive plasmonic resonators.
  • Build and run electromagnetic and optical simulations (such as FDTD, RCWA, and/or finite-element methods) to predict device performance and iterate designs against optical, spectral, and polarization targets. Develop and maintain scientific programing used to automate simulation, optimization, and the analysis of measured optical data.
  • Design and optimize pixel- and system-level optical layouts, balancing optical performance against manufacturability. Document designs, methods, and results, and communicate findings clearly to cross-functional engineering and research teams.

KNOWLEDGE, SKILLS AND ABILITIES

To perform this job successfully, an individual must be able to perform each essential function satisfactorily. The requirements listed below are representative of the knowledge, skills and/or abilities required to satisfactorily perform the essential functions of this job.

  • PhD - or an MSc with equivalent industry experience - in Physics, Photonics, Optical Engineering, Electrical Engineering, Applied Physics, or a closely related field, with a focus on nanophotonics, meta-optics, optical design, or related areas.
  • Demonstrated knowledge of nanophotonics, meta-optics, and/or optical/electromagnetic physics, including metasurfaces, metalenses, diffractive and grating optics, plasmonic resonators, diffraction, interference, polarization, thin-film interference, scattering, and Fourier optics.
  • Hands-on proficiency with electromagnetic / optical simulation tools such as FDTD (e.g., ANSYS FDTD), RCWA, and/or finite-element solvers (e.g., COMSOL).
  • Proficiency in scientific programming (e.g. Python and/or MATLAB) for simulation automation, numerical optimization, and data analysis.
  • Hands-on optical laboratory experience - building and aligning optical setups and performing optical characterization (e.g., spectroscopy, microscopy, or imaging).
  • Nice to have: Experience translating optical designs into fabrication-ready layouts (e.g., GDSII) and a working understanding of nano- and micro-fabrication constraints and tolerances.
  • Nice to have: Hands-on nano- or micro-fabrication experience, such as cleanroom processes (electron-beam or photolithography, etching, thin-film deposition, or nanoimprint lithography).


SPECIAL REQUIREMENTS

  • Minimal travel required; occasional domestic or international travel may be required to support fabrication, characterization, or project collaboration.

About Authentix

Authentix is an American company that provides authentication solutions for a variety of industries, including oil and gas, pharmaceuticals, and consumer goods. The company was founded in 1993 and is headquartered in Dallas, Texas. Authentix offers a range of products and services, including authentication markers, track and trace systems, and data analytics. The company is known for its expertise in anti-counterfeiting and brand protection, as well as its commitment to sustainability and social responsibility.
Learn more about Authentix
Size
200 employees
Industry
Founded
1995

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