Inventor
MYERS JASON D
US30 patents
⚠️ This page may combine multiple inventors who share the name “MYERS JASON D”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
US GOV SEC NAVY
17 patentsUS11163207B2Nov 2, 2021
Chalcogenide glass waveguides for refractive non-mechanical beam steerer
US GOV SEC NAVY2 citations71
US10915004B2Feb 9, 2021
Wavelength-based steering of non-mechanical beam-steering devices
US GOV SEC NAVY4 citations71
US11271124B2Mar 8, 2022
Method for fabrication of copper-indium gallium oxide and chalcogenide thin films
US GOV SEC NAVY0 citations62
US10884188B2Jan 5, 2021
Antireflective surface structures for active and passive optical fiber
US GOV SEC NAVY0 citations62
US12138904B2Nov 12, 2024
Organically modified chalcogenide polymers for use as optical adhesive materials
US GOV SEC NAVY0 citations61
US11912606B2Feb 27, 2024
Infrared-transmitting, polarization-maintaining optical fiber and method for making
US GOV SEC NAVY0 citations61
US11827008B2Nov 28, 2023
Organically modified chalcogenide polymers for use as optical adhesive materials
US GOV SEC NAVY0 citations61
US11609479B2Mar 21, 2023
Bulk property feedback for liquid crystal-clad waveguides
US GOV SEC NAVY0 citations61
US10690992B2Jun 23, 2020
Chalcogenide glass waveguides for refractive non-mechanical beam steerer
US GOV SEC NAVY1 citations60
US12291623B2May 6, 2025
Organically modified chalcogenide polymers
US GOV SEC NAVY0 citations59
US11294253B2Apr 5, 2022
Concurrent utilization of monolayer graphene as the planar-alignment layers and the transparent conductive electrodes in electro-optic liquid crystal devices
US GOV SEC NAVY0 citations59
US11131898B2Sep 28, 2021
Liquid crystal device employing graphene as the planar-alignment agent and electrode
US GOV SEC NAVY0 citations59
US12196951B2Jan 14, 2025
Optomechanical fiber actuator
US GOV SEC NAVY0 citations56
US11761434B2Sep 19, 2023
Optomechanical fiber actuator
US GOV SEC NAVY0 citations56
US10663667B2May 26, 2020
Antireflective surface structures for active and passive optical fiber
US GOV SEC NAVY0 citations51
US10564505B2Feb 18, 2020
Graphene as an alignment layer and electrode for liquid crystal devices
US GOV SEC NAVY0 citations48
US10444595B2Oct 15, 2019
Technique for dynamically controlling the incoupler of a beam-steering device
US GOV SEC NAVY0 citations40
US NAVY
6 patentsUS9822442B2Nov 21, 2017
Manufacturing a crucible for containment using non-wetting materials
US NAVY3 citations72
US10168597B2Jan 1, 2019
Liquid crystal alignment on chalcogenide glasses
US NAVY0 citations51
US10126504B2Nov 13, 2018
Antireflective surface structures for active and passive optical fiber
US NAVY0 citations51
US10059810B2Aug 28, 2018
Organically modified multicomponent chalcogenide polymers
US NAVY1 citations50
US9806208B2Oct 31, 2017
Method of passivating an iron disulfide surface via encapsulation in a zinc sulfide matrix
US NAVY0 citations50
US9806209B2Oct 31, 2017
Passivated iron disulfide surface encapsulated in zinc sulfide
US NAVY0 citations50
FRANTZ JESSE A
3 patentsUS10734943B2Aug 4, 2020
Photovoltaics optimized for laser remote power applications at eye-safer wavelengths
FRANTZ JESSE A2 citations72
US9676227B2Jun 13, 2017
Wet-etchable, sacrificial liftoff layer compatible with high temperature processing
FRANTZ JESSE A0 citations51
US9705012B2Jul 11, 2017
Method of passivating an iron disulfide surface via encapsulation in zinc sulfide
FRANTZ JESSE A0 citations49