Replies to post #220730 on Lightwave Logic Inc (LWLG)

[The Great Pumpkin]

LEAPFROGGED!

EOP will never make it to market. Still years away for commercial viability with new and better materials hitting the scene.

https://polariseo.com/#tecnhology

#scam

[tedpeele]

Polaris CEO is Cory Pecinovsky - who was/is instrumental in quite a few Lightwave patents:

Polaris is located in COLORADO. Cory left Lightwave in July of 2021.

https://polariseo.com/#about

https://patents.justia.com/inventor/cory-pecinovsky

Many patents were filed 2-3 years after he left, which were for ideas he was involved with inventing, , that were assigned to Lightwave, and ONE has as inventor just himself: That one was assigned and granted to Polaris

Ferroelectric nematic composition and device thereof
Patent number: 12187945
Abstract: Provided herein are ferroelectric nematic (NF) compositions comprising a ferroelectric nematic host and one or more nonlinear optical compounds (chromophores).
Type: Grant
Filed: July 14, 2023
Date of Patent: January 7, 2025
Assignee: POLARIS ELECTRO-OPTICS, INC.
Inventor: Cory Pecinovsky

https://www.linkedin.com/in/cory-pecinovsky-81233821/

[tedpeele]

Mark's post includes this shocker. I'm sure Proto is preparing his character assassination of Mark as we speak:

This latest platform from Polaris is not even known by everybody, yet. So, while fibeReality has received feedback from its contacts that FNLC appears to be better than polymers, such as less troublesome, as well as intrinsically more robust (please see: https://lnkd.in/e-97jNKj), along with the former being simpler to process than barium titanate, these distinctions will be a lot more relevant at 800G per lane, well into the future (please see: https://lnkd.in/eF2dhU-p). Polaris will then have to demonstrate high-volume yields as well as substantially lower cost because at the end of the day, they will be the sole success factors.

Lightwave and Polaris/Cory probably have some very interesting stories to tell about each other.

Why did he leave? Obviously he thought he could take his invention and improve upon perkanimine.

And/or maybe he sees FNLC as his ticket to a nice buyout by Lightwave.

Time will tell if Lightwave or the industry is going to take it seriously or not.



..

[spartex]

Just did a Google AI search question on this Polaris company and its FNLCs for just more knowledge on potential competition down the road, and, assuming it (the AI search) is mostly correct (does include that caveat at the end of the search, which is a good disclaimer!). It only mentions around Polaris is successful with 100 Gbps speeds/lane, and not needing to use poling like polymers. Funny thing is that LWLG already passed that bar of poling very effectively and at CMOS production rates! The race is definitely ON boys and girls, including Marky who is just a pain in the Arse but good just to keep us on our toes/aware of other things happening. Ok, gotta run.....have places to go and people to see! 🤫

See AI answer below:

Polaris Electro-Optics, using a new material ferroelectric nematic liquid crystals for electro optical modulators?

Yes, Polaris Electro-Optics is actively developing electro-optical modulators based on a new material: ferroelectric nematic liquid crystals. This technology is considered groundbreaking and has the potential to redefine integrated photonics.

Here's why this is significant:

Ferroelectric nematic liquid crystals (FNLCs) offer remarkable properties:

They enable high-speed electro-optic devices with potential for bandwidths limited only by device architecture.

They exhibit a large Pockels effect, meaning they have a strong electro-optic response.

They spontaneously organize into a polar structure, eliminating the need for poling, unlike some other materials like electro-optic polymers.

They offer high scalability and repeatability compared to electro-optic polymers.

Recent research has demonstrated FNLCs with birefringence (a measure of how light interacts with the material) approaching that of lithium niobate, a widely used material in electro-optics.

They have shown a significantly improved figure of merit compared to other electro-optical switching modes in liquid crystals, including the conventional Frederiks effect.

Polaris's technology leverages these advantages:

Their proprietary ferroelectric nematic glass (FNG) modulator platform delivers unmatched performance in speed, efficiency, and integration.

It combines ultra-high-speed modulation with sub-volt drive voltages and a compact footprint.

It's compatible with standard silicon photonics processes and is fully CMOS backend-friendly, making it scalable and manufacturable.

Polaris has demonstrated 102 Gbps PAM-4 silicon photonic modulation using their proprietary technology.

In essence, Polaris Electro-Optics is utilizing the unique properties of ferroelectric nematic liquid crystals to create faster, more efficient, and smaller electro-optical modulators that are compatible with existing silicon photonics technology, which could have a significant impact on fields like data centers, AI, and telecommunications.

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