Erik Shipton, Ph.D.

Erik Shipton, Ph.D. Email and Phone Number

Chief Engineer @ Odyssey
Kirkland, WA, US
Erik Shipton, Ph.D.'s Location
Kirkland, Washington, United States, United States
Erik Shipton, Ph.D.'s Contact Details

Erik Shipton, Ph.D. personal email

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Erik Shipton, Ph.D. phone numbers

About Erik Shipton, Ph.D.

A high caliber research scientist, hardware engineer, and inventor with extensive background in experimental and computational physics, materials science, and engineering. Over 20 years’ experience in research and development environment with significant experience in optical sciences, computer vision, and AI optimization techniques. Excellent communication skills and strategic vision for both short and long term technology development. Proven innovation track record for state of the art hardware technology with 30+ granted US patents. Excellent mix of depth and breadth in R&D as seen in the areas of granted patents (ranging from RF to optical devices for applications ranging from satellite communications to augmented reality).

Erik Shipton, Ph.D.'s Current Company Details
Odyssey

Odyssey

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Chief Engineer
Kirkland, WA, US
Website:
odysseyai.io
Employees:
5
Erik Shipton, Ph.D. Work Experience Details
  • Odyssey
    Chief Engineer
    Odyssey
    Kirkland, Wa, Us
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  • Imagia
    Chief Technology Officer
    Imagia Jun 2023 - Feb 2024
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  • Google
    Research Scientist
    Google Jun 2022 - Jun 2023
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  • Oculus Vr
    Research Scientist
    Oculus Vr Aug 2016 - Jun 2022
    Redmond, Wa
    Designing next generation optical components for near eye displays in augmented reality applications. Implement full wave electromagnetic solvers using various algorithms (FDTD, FEM, RCWA, DDA) on large scale clusters to design nanophotonic devices such as diffractive optics, microLED's, optical waveguides, optical metasurfaces, and liquid crystal based devices.
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  • Facebook
    Research Scientist
    Facebook Aug 2016 - Jun 2022
    Designing next generation optical components for application in near eye displays for augmented reality. Implement full wave electromagnetic solvers using various algorithms (FDTD, FEM, RCWA, DDA) on large scale clusters to design nanophotonic devices such as diffractive optics, microLED's, optical waveguides, optical metasurfaces, spatial light modulators, and liquid crystal based devices. Optimization of electrodynamic / optical devices using inverse design (adjoint optimization)… Show more Designing next generation optical components for application in near eye displays for augmented reality. Implement full wave electromagnetic solvers using various algorithms (FDTD, FEM, RCWA, DDA) on large scale clusters to design nanophotonic devices such as diffractive optics, microLED's, optical waveguides, optical metasurfaces, spatial light modulators, and liquid crystal based devices. Optimization of electrodynamic / optical devices using inverse design (adjoint optimization), machine learning, and Bayesian methods coupled with full wave solvers. Show less
    View
  • Meta
    Research Scientist
    Meta Aug 2016 - Jun 2022
    Redmond, Washington, United States
    Designing next generation optical components for application in near eye displays for augmented reality systems.Implement full wave electromagnetic solvers using various algorithms (FDTD, FEM, RCWA, DDA) on large scale compute clusters to design nanophotonic devices such as diffractive optics, microLED's, optical waveguides, optical metasurfaces, spatial light modulators, and liquid crystal based devices. Optimization of electrodynamic / optical devices using inverse design (adjoint… Show more Designing next generation optical components for application in near eye displays for augmented reality systems.Implement full wave electromagnetic solvers using various algorithms (FDTD, FEM, RCWA, DDA) on large scale compute clusters to design nanophotonic devices such as diffractive optics, microLED's, optical waveguides, optical metasurfaces, spatial light modulators, and liquid crystal based devices. Optimization of electrodynamic / optical devices using inverse design (adjoint optimization), machine learning, and Bayesian methods coupled with full wave solvers. Show less
    View
  • Kymeta Corporation
    Rf Materials Scientist
    Kymeta Corporation Jul 2015 - Jul 2016
    Redmond, Wa
    Reconfigurable and electronically steerable antenna design based on holographic beam forming for satellite communications. Computational electromagnetics using FDTD and FEM techniques implemented in commercial and open source tools such as CST, HFSS, and MEEP. Metamaterial antenna modeling using in-house developed software based on the discrete dipole approximation. Liquid crystal development and characterization for RF and mm wave applications.
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  • Georgia Tech Research Institute
    Research Scientist
    Georgia Tech Research Institute 2012 - 2015
    Atlanta, Georgia
    Computational electromagnetics, including finite difference time domain (FDTD) and finite element method (FEM). High performance computing (HPC) electromagnetic design and optimization on linux clusters. RF/microwave antenna design and analysis. Plasma physics simulations of high power microwave devices using the particle in cell code ICEPIC. Metamaterial based high power microwave source design. Nano magnetic device design, simulation, and fabrication.
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  • General Atomics Aeronautical Systems
    Scientist
    General Atomics Aeronautical Systems Jun 2011 - Dec 2012
    San Diego, Ca
    Antenna R&D with an emphasis on advanced magnetic materials to develop the next generation antennas for UAV’s. Technical lead for RF magnetic metamaterial design, fabrication, and characterization. Modeled metamaterial electromagnetic performance using HFSS. Developed the concept, design, and demonstration of novel magneto-optical antenna. Technical lead on government contracts.
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Erik Shipton, Ph.D. Skills

Computational Electromagnetics High Performance Computing Optical Physics Python Optical Materials Optics Quantum Optics Simulations Holography Finite Element Analysis Fdtd Optimization Augmented Reality Electromagnetic Simulation Linux Sensors Radio Frequency Materials Science Bayesian Optimization Virtual Reality Plasma Physics

Erik Shipton, Ph.D. Education Details

Frequently Asked Questions about Erik Shipton, Ph.D.

What company does Erik Shipton, Ph.D. work for?

Erik Shipton, Ph.D. works for Odyssey

What is Erik Shipton, Ph.D.'s role at the current company?

Erik Shipton, Ph.D.'s current role is Chief Engineer.

What is Erik Shipton, Ph.D.'s email address?

Erik Shipton, Ph.D.'s email address is er****@****lus.com

What is Erik Shipton, Ph.D.'s direct phone number?

Erik Shipton, Ph.D.'s direct phone number is +161928*****

What schools did Erik Shipton, Ph.D. attend?

Erik Shipton, Ph.D. attended University Of California San Diego, University Of California, Berkeley, Grossmont College.

What skills is Erik Shipton, Ph.D. known for?

Erik Shipton, Ph.D. has skills like Computational Electromagnetics, High Performance Computing, Optical Physics, Python, Optical Materials, Optics, Quantum Optics, Simulations, Holography, Finite Element Analysis, Fdtd, Optimization.

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