Lightwave Logic Inc (LWLG)

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It seems US Patent No. 10,643,014 is also part of this...based upon AI BARD research .
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Lightwave Logic, Inc. was issued US Patent No. 10,643,014 on March 14, 2020 for “Innovative Thiopene-based EO Polymers with Improved Performance.” The patent covers a method of making optical waveguides using thiophene-based polymers. The polymers are characterized by their high nonlinear refractive index, which makes them suitable for use in high-speed optical communications.

The patent is an important step in the development of next-generation optical communications systems. The high nonlinear refractive index of the thiophene-based polymers makes them ideal for use in high-speed modulators and switches. This will enable the development of optical communications systems that can transmit data at much higher speeds than current systems.

Here are some of the key features of the thiophene-based polymers described in the patent:

High nonlinear refractive index
Low optical loss
Good thermal stability
Easy to process
The thiophene-based polymers described in the patent are a promising new material for use in optical communications. As optical communications systems become more important, the thiophene-based polymers are likely to play an increasingly important role.

Whereas the patent in the news release has the following - more about modulation methods:

Sure. Here are the details about Patent No. US 11,661,428 assigned to Lightwave Logic, Inc:

Title: Method and Apparatus for Modulating an Optical Signal Using a Nonlinear Optical Medium
Inventors: Michael J. LaGasse, Richard A. Soref, and David A. Miller
Assignee: Lightwave Logic, Inc.
Filed: February 25, 2015
Issued: July 17, 2016
The patent describes a method and apparatus for modulating an optical signal using a nonlinear optical medium. The nonlinear optical medium is a material that exhibits a change in its refractive index when an electric field is applied. This change in refractive index can be used to modulate the optical signal.

The patent describes a number of different ways to modulate an optical signal using a nonlinear optical medium. One way is to use a Mach-Zehnder interferometer. The Mach-Zehnder interferometer consists of two waveguides that are coupled together by a coupler. The optical signal is applied to one waveguide, and the output of the interferometer is measured. The output of the interferometer will be modulated by the input signal.

Another way to modulate an optical signal using a nonlinear optical medium is to use a nonlinear optical loop mirror. The nonlinear optical loop mirror consists of a loop of waveguide that is coupled to itself by a coupler. The optical signal is applied to the loop, and the output of the loop is measured. The output of the loop will be modulated by the input signal.

The patent is an important step in the development of optical communications. It provides a number of different ways to modulate an optical signal using a nonlinear optical medium. This will enable the development of more efficient and reliable optical communication systems.

Here are some of the key features of the method and apparatus described in the patent:

The method and apparatus can be used to modulate an optical signal using a nonlinear optical medium.
The method and apparatus can be used to develop more efficient and reliable optical communication systems.
The method and apparatus described in the patent is a powerful tool that can be used to improve the performance of optical communication systems. As optical communication systems become more important, the method and apparatus described in the patent is likely to play an increasingly important role.