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Well sorry but questioning why employees under NDAs working with certain companies simply do not exist because you cannot verify it via facebook doesn't show good analysis on your part. Where if you just asked the question, you might get an answer that makes sense rather than what you like to do is create doubt via 84 posts on the subject because you simply didn't due your homework.
Xster, sometimes you simply just do not want to know the answer.
The stock was taken to this level on 7/27 and has been held there. See replied to post for blocks.
Volume on that day was almost 800K. Volume was also high at the peak. Shorted shares were probably added at higher leves and wash traded afterward.
08/08/23 6.40 6.4712 6.34 6.38 456,604 (cut and paste from TDA feed says <100K)
08/07/23 6.53 6.57 6.36 6.51 431,200
08/04/23 6.38 6.76 6.35 6.49 376,187
08/03/23 6.35 6.50 6.21 6.39 458,353
08/02/23 6.55 6.55 6.27 6.45 528,959
08/01/23 6.72 6.735 6.42 6.68 384,361
07/31/23 6.71 6.93 6.64 6.72 480,309
07/28/23 6.78 6.8299 6.46 6.72 614,212
07/27/23 7.29 7.30 6.51 6.56 756,694
07/26/23 7.19 7.40 6.98 7.17 454,524
07/25/23 7.10 7.34 7.08 7.23 412,867
07/24/23 7.22 7.31 7.01 7.09 564,315
07/21/23 7.40 7.59 6.98 7.26 791,347
07/20/23 7.79 7.89 7.21 7.40 777,111
07/19/23 8.17 8.40 7.57 7.93 1,067,060
07/18/23 8.70 9.05 8.1391 8.17 1,324,871
07/17/23 7.73 8.67 7.70 8.65 914,200
07/14/23 7.80 7.96 7.54 7.89 1,016,693
07/13/23 7.50 7.89 7.46 7.84 947,238
07/12/23 7.50 7.64 7.19 7.43 1,037,465
07/11/23 6.99 7.39 6.95 7.37 507,160
I think you misunderstood.
This was the fraud.
fkcow
Re: prototype_101 post# 151010
Tuesday, August 08, 2023 11:35:47 AM
Post#
151018
of 151082
Felt obliged to comment here:
Also from Bard (probably hallucinating):
Yes, Lightwave Logic did announce on July 26, 2023 that they have developed a new type of optical encryption that is unbreakable. However, the announcement was fake. Lightwave Logic has not developed a new type of optical encryption.
The announcement was made on a website called "The Daily Beacon", which is a satirical news website. The announcement was also shared on social media, where it was quickly picked up by people who believed it to be real.
Lightwave Logic is a real company that develops optical components for telecommunications. However, they have not announced any new developments in optical encryption.
The fake announcement was likely created to generate excitement about quantum encryption. Quantum encryption is a new technology that is still in development, but it has the potential to be much more secure than traditional encryption methods.
It is important to be critical of information that you find online, especially if it seems too good to be true. If you are not sure if an announcement is real, you can always contact the company directly to verify.
Spot on. Think for most, a sample size of 2 would be grossly inadequate to come to an absolute conclusion about, in this instance, whether it could be beneficial to discuss investment aspects with the CEO of the company. Get that being lied to would make you more wary and do further research about what was said, but certainly not avoid a very logical and effective resource to establish investment merit.
Well, as I said I think I do better with facts than with social cues. Although I actually do fairly well socially, I'm an introvert by nature, so I may be a bit weak when it comes to reading people properly in person. I see no need to hear the words in person or look at body language cues and find those things actually may be a bit of a liability because as I said I want to believe in people. Wanting to believe in people can skew one's judgement, as can being introverted.
But I know how to match words with actions, and I know how to find contradictions and how to apply logic. The dispassionate approach I feel is the best for me and gives me an advantage over those that are susceptible to being too trusting of people in person.
It would sure be great if they did it!
See the replied to post - it was a fraud. There was no such paper.
Wow Ted I thought that you consider yourself a good judge of information and yet you could not determine if they were being honest or dishonest with you and you couldn't figure out how to double check. No wonder you appear not to able to commit and chose to gamble with options rather than just straight up invest. Now I understand the lack of confidence.
Dang Man, I thought you said that you were the best.
When folks are trying to spin me, I look them in the eye and I have this little B.S. alarm that goes off in my head if I'm being played, but that doesn't prevent me from talking to the leaders of other companies I'm investing in. And guess what just ask the same question to 3 different levels, CEO, Board, advisor or Employee that is how I do my due diligence.
X when you tell the truth you don't need to remember what you said, we have these lil breakout sessions determine the most important issues to us and a few of us ask it, then we meet afterwards, either a room. a hallway the bar or at dinner.
Here is what Tedpe said
"Many" implies something a lot higher. But to be completely transparent - to my face I've been lied to by one CEO. On the phone I've been given misleading info perhaps 5 times.
I'd say I have been 'conned' by a con maybe a couple of times, but it has been quite a few years. That is why I corrected the Belgium poster who thought I said I've been conned many times, and who implied that it is relevant to my ability now to read between lines. I'd say it made me better at being skeptical.
X
That certainly explains why I'm confident, I just thought that you were an analytical type of personality that never knows when to stop analyzing something and just buy the car or make the investment. If I was wrong oh well, it was my decision.
Apparently you don’t understand that developing and gaining customer acceptance of a disruptive technology is a time consuming process.
The company says customer acceptance and ramp 2024.
Id' say that's fair. I would be more inclined to speak to Dr Lebby in person if I thought it would change anything. When I hear him speak I start to become a believer every time..but then I step back and look at the facts.. First-hand impressions can deceive because we want to believe in people.
It may well be more like Steven and some others say - he is being honest but trying to put the best possible light on everything. Well, those two are a bit contradictory to me...
I just don't want to rely on my 'impressions', I'd prefer to look at facts and actions and how well they do what they say they will do.
Could be but your defensive reply about CEO's tells a different story.
I'm confused. You say it's a fraud, then you say it's real.
Let's discuss the Competition >> from the ASM video starting at about 21:06 investors learn that amazingly there is no REAL competition to LWLG's technology for transmitting data!!! The first slide on competition shown is #25 and it has columns for each of the competitive products and then down the page a list of attributes along with the comparable Ratings for each of them, LWLG's Polymers are by far and away TONS THE BEST versus ALL the competitors!!
Let's review each of the attributes and see why LWLG's technology is SO SUPERIOR to any/all of them
1) SPEED >> LWLG is TONS THE BEST with speeds over 100GHz with HEADROOM to go MUCH FASTER!!!!! The rest of the competitors MAX OUT in the 30GHz - 70GHz range!!!
2) SIZE >> LWLG's slot modulator is the smallest, InP comes closest, but LNb, TFLN, and BTO are all MUCH BIGGER, in fact in another slide Lebby compares LWLG's slot modulator array to TFLN and in the space where 8 TFLN modulators sit, there could be 15 times as many LWLG slot modulators (120 modualtors!!)
3) POWER (Voltage) >> Only LWLG's technology is at sub 1 volt, SiP up to 5 volts, InP up to 7 volts, LNb up to 40 volts, TFLN up to 5 volts, BTO up to 3 volts
4) OPTICAL LOSS >> again LWLG slot is BEST with 3-8Db, SiP up to 20Db, InP up to 10Db, LNb up to 12Db, TFLN up to 15Db, BTO up to 12Db
5) ENERGY CONSUMPTION >> LWLG is BEST again with just 5pj/bit!!! SiP up to 20pj/bit, InP up to 40pj/bit, LNb up to 100pj/bit, TFLN up to 20pj/bit, BTO up to 20pj/bit
6) STABILITY >> again LWLG is the BEST, while SiP and InP are also very Stabile, the newcomers BTO and TFLN are NOT stabile enough for commercial acceptance!!
7) FOUNDRY COMPATABILITY >> Only LWLG and SiP use "Standard SiP PDK Fabrication", InP, LNb, TFLN and BTO are NOT able to use "Standard SiP PDK Fabrication" they all require their own Foundries
8) REQUIRES DRIVER (Expensive & Power Hungry!!!!) >> Only LWLG at sub 1 volt can ELIMINATE THE DRIVER!!!!! This is HUGE HUGE HUGE!!!!
Lebby also illustrates all of this at 25:18 marker with Slide #29 where the BEST technology would be found as HIGH UP and as FAR TO THE RIGHT as can be, notice ONLY one technology is placed there and it is of course LWLG in the light green shaded rectangle!!!
Thanks th6565. You made very smart moves too!
fair enough...not trying to twist your words....
I just notice that your learnings were ( after being lied to too many times.....) not to speak to CEO's anymore....
says enough for me......=> there was a time I valued your posts, long time ago...
So apparently your post was a fraud...
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=172544067
Photonic QKD is real:
Building a faster chip-based system
In previous work, the researchers developed a three-state time-bin QKD protocol that was carried out with standard fiber-based components to achieve QKD transmission at record high speeds.
“Our goal in this new work was to implement the same protocol using integrated photonics,” said Sax. “The compactness, robustness, and ease of manipulation of an integrated photonic system — with fewer components to verify when implementing or to troubleshoot in a network — improves the position of QKD as a technology for secure communication.”
QKD systems use a transmitter to send the encoded photons and a receiver to detect them. In the new work, the University of Geneva researchers collaborated with silicon photonics company Sicoya GmbH in Berlin, Germany, and quantum cybersecurity company ID Quantique in Geneva to develop a silicon photonics transmitter that combines a photonic integrated circuit with an external diode laser.
The QKD receiver was made of silica and consisted of a photonic integrated circuit and two external single-photon detectors. Roberto Osellame’s group at the CNR Institute for Photonics and Nanotechnology in Milano, Italy, used femtosecond laser micromachining to fabricate the receiver.
“For the transmitter, using an external laser with a photonic and electronic integrated circuit made it possible to accurately produce and encode photons at a record speed of up to 2.5 GHz,” said Sax. “For the receiver, a low-loss and polarization-independent photonic integrated circuit and a set of external detectors allowed passive and simple detection of the transmitted photons. Connecting these two components with a standard single-mode fiber enabled high-speed production of secret keys.”
As info the other 30k shares that were shorted this morning have been returned (bought back).
Walla, green and up .05 cents on the day, but it isn't over yet. That was around 1:00
But see how that worked, borrowed and sold 60k shares price went down, returned the 60k shares before end of the day, back up it goes. Cause and effect. It uses to take 3 weeks to figure out what they were doing, meanwhile folks were panicking.
Hey how is the T+1 move going, let me look.
Shortening the Securities Transaction Settlement Cycle
A Small Entity Compliance Guide[1]
On February 15, 2023, the Securities and Exchange Commission (“Commission”) adopted rule amendments to shorten the standard settlement cycle for most broker-dealer transactions from two business days after the trade date (“T+2”) to one business day after the trade date (“T+1”).
https://www.sec.gov/investment/settlement-cycle-small-entity-compliance-guide-15c6-1-15c6-2-204-2#:~:text=On%20February%2015%2C%202023%2C%20the,%E2%80%9CT%2B1%E2%80%9D).
X The compliance date for the rule change will be May 28, 2024.
Getting closer folks, this will reduce some but not all of the hanky panky.
"too many" is not the same as "many". "Too many" can be as few as one. "Many" implies something a lot higher. But to be completely transparent - to my face I've been lied to by one CEO. On the phone I've been given misleading info perhaps 5 times.
I'd say I have been 'conned' by a con maybe a couple of times, but it has been quite a few years. That is why I corrected the Belgium poster who thought I said I've been conned many times, and who implied that it is relevant to my ability now to read between lines. I'd say it made me better at being skeptical.
Ok now?
making money happens in more than one way - that's why I asked what their philosophy is? Have they researched the company? Or do they use some algorithm?
You are analyzing me. Should I now analyze you? You are long. You want the stock to go up, so you will say things about institutions without providing a perspective on how important those things are. Perhaps you are wrong. Perhaps your implication is wrong.
I"m simply pointing out that the info you gave may or may not be of any value and what really is of value is missing when it comes to institutions.
Too many was the quote, sounds like many, and that you didn't learn quickly, ie Conned.
Scope, you made smart move to stay put. Big reward days are coming.
They are all in the business of creating equity for their investors. They do it for a living. They all bought into Lightwave. Period.
You claim it is a scam. You are wrong.
Keep trying to get people to follow you with your incorrect advice so you can cash in if the share price goes down. Transparency is not your strong suit
Here is list of what the shorts stated. Vs what actually happened here.
Basically, the shorts were just trying to deter investors and promote shorting.
1.) The shorts had worked for months to try and convince investors that Lightwave had a problem poling. Then low and behold Lightwave just unveiled 2 patents they submitted years ago solving that issue.
2.) The shorts claimed for years Lightwave could not protect the device in anything other than a gold box, then Lightwave unveiled the ALD patent that they had acquired. Basically, hair spray over the finished chip is all that is needed. The foundries are using the same thing over the electronics side of the chip. Prrrrfect Batman, Perfect.
Understand that even if someone else invents an EO Polymer Lightwave Owns the Patent on ALD over Polymers. Comprende?
3.) The shorts claimed Lightwaves material was not stable, Wham Bam blown out of the water yet again. I smoked my bronco tires when I saw the data.
4.) Shorts said that Lightwave could never get this under 1 volt, well Lightwave did, in fact Lightwaves polymer is so sensitive that their modulators can function without the aid of driver to boost the voltage. Basically the electriic in the 1's and 0's rolling off the silicon can embed themselves into the laser using Lightwaves polymer. Oh and by the way, Lightwave also owns the patent on a driverless Polymer Modulator. Even if someone perfects a stable sensitive EO polymer when the try direct drive, they have to come knocking on Lightwaves door with cash in hand.
5.) For the 6 months leading up to the annual shareholder meeting the shorts stated Lightwave could not close a commercial deal all the while the shorts borrowed and sold an additional 4 million shares trying to convince some that the sky was falling and once again Lebby delivered.
6.) For months the shorts said Lightwave could not use anything other than gold on their electrodes, well guess the F what, yup, once again (at the shareholders meeting) Lebby put up a slide of successful foundry runs and when asked by me if the contacts labeled AL on the slide stood for Aluminum Lebby said “yes, we use that any many other materials as well”. I asked about aluminum corrosion, the response was, X (you idiot) that is what the ALD will also protect.
7.) The Shorts were trying to convince longs that the foundry had not made progress on PDK’s, Lebby certainly blew them out of the water on that as well. As info PDK’s are process development kits, it is how the foundries make Lightwaves devices available to the public so when an NVDA’s, Amazon (AWS), Cisco or Fujitsu is designing they can check that box and add that to their device in the foundry.
8) The latest falshood is that the Polymer degrades just like LED’s therefore they cannot become ubiquitous. As info LED's were invented over 100 years ago, I think he meant OLEDs but Lightwaves polymer does not produce light, that come from an InP laser. Mixing apples and oranges. Lightwaves Polymer Switches the Light. Oh and by the way both LEDs and OLEDs are ubiquitous.
The shorts are worried folks and it is obvious that whomever they got their info from was consistently years behind making up issues that had in fact already been solved.
Lightwave is finally at the stage where they have the patents in place, leased additional lab space, hired additional lab personnel for making larger quantities of perkinamine, (a few fluid ounces can make thousands of devices) the new lab will be also to test larger quantities of chips coming back from foundries, work on new polymers for additional devices (currently they have 4 polymers that are available) produce data sheets, standardize bulk testing they have even hired a dedicated deal maker, oh also a V.P. dedicated just to working with foundries that are both actively running wafers and at the head of the line ready to do their first run.
This thing will in fact snowball because the industry's "go to" good old silicon photonics has hit the wall it simply cannot run faster. Lightwaves material when added applied to Silicon trips the speed and because it is so sensitive it is 30times smaller and uses 1/10 the power all at a time when AI is pushing the amount of data processed by the data centers through the roof.
Lightwave makes the thing that makes the component better anyone communicating using fiber optics needs it, the entire industry needs it. Think if BASF produces a chemical that makes paint last longer. Why would the paint manufacture tell its competitors what makes their paint so durable. Lightwave is going partner with many and they will simply sell devices that are faster and require less energy, those companies are not going to tell the competition what they do to make that happen. Lightwave will quietly market to the tier1's and they will insist on it. The one exception that I see is that if the foundry runs were paid for by Lightwave Logic (vs. say an amazon or facebook etc) Lightwave would do joint public PR of where the industry can order chips with Lightwaves Perkinamine on it (It is called checking the box on the PDK).
The shorting situation will be solved by additional Partnerships and look out when those Partnerships are accompanied by a dividend in a new 3rd party company licensing say the ability to develop the Lidar device market or for the biotech crowd a medical sensing partner, wham short situation solved in short order. Remember that currently they are only talking about Telcom 2km to 10km market but there are so many more.
aaa AAA
Xberger Understand that Lightwave approached some foundries on their own and were directed to work with others by a few tier 1's. I'd bet the tier 1's pay the foundry while Lightwave pays on the ones they approached.
I didn't say I was conned. Nor did I say "many times". I said I've been lied to by CEOs. And I said "by too many". How many is that? Two that come to mind.
Why are twisting the words? Just an oversight? Maybe the language difference? Or do you have this image of me you need to try and project?
One has to fall for the lies in order to be conned. But I will say that early in my investing career I was a bit too trusting. Learned quickly.
That's a selective group that may or may not be important. Why not list the LLCs that REDUCED their positions too? Why not state the investment philosophies of the ones you listed? Are they research-based or algo-based? Or something else?
Advisory Services Network LLC sold over 26,000 shares this last quarter..one of quite a few LLCs that reduced positions.
Funds buy, Funds sell, the fact is index funds still make up something like 99% of the institutional ownership AND institutional ownership hasn't changed much at all in quite some time.
What really would matter is more than one anomaly like UMB that has an actively managed fund that takes a meaningful position in the company. Even better, puts out a research reports supporting their reasons for purchase.
Supply has tightened up, only one block >=1K since 12:33
08/08/23 12:35:49 6.62 6.59 6.61 2,900
from the LWLG/Intel/Ayar/Global Foundries thread
What a find u/KCCO7913 That's EXACTLY what I was thinking !!!
Ayar Lab = Intel and Tower
+ Silorix = LWLG = World record
+ Global F***ng Foundries
---------------------------------------
U B I Q U I T O U S Ecosystem
Wow! Let's make that public!
-TheRoc66
and....
Ayar Labs and Global Foundries are now confirmed to be working with polymers on the GF Fotonix platform! Incredible. Thanks KCCO. You're the man!
We are not part of the ecosystem. We ARE the ecosystem.
-JimmyLaRiv
https://www.reddit.com/r/LWLG/comments/154a4rw/white_paper_hybrid_integration_of_exotic/
and of course the root of all the excitement is this direct link to LWLG being the enabler of Intel/Ayar Labs/Global Foundries!!!
White Paper - Hybrid Integration of Exotic Materials in CMOS Platform
This white paper marks the first direct evidence of a connection between GlobalFoundries, (Intel)Ayar Labs, and EO polymers. Note that LWLG is not referenced, however Carsten Eschenbaum, CTO of SilOriX, and Christian Koos are listed authors on the paper. We all know the connection to LWLG and SilOriX and Christian Koos.
Deniz Onural is at Boston University in their Silicon Photonics Lab. Hayk Gevorgyan is a Senior Photonics Device Engineer at Ayar Labs. Milos Popovic is also at Boston University and a co-founder at Ayar Labs.
This paper describes the BEOL process for integrating EO polymers in ring modulators on wafers supplied by GlobalFoundries.
Title: “Towards Hybrid Integration of Exotic Materials in an Electronic-Photonic CMOS Platform via Substrate Removal”
Abstract: “We demonstrate direct access to the silicon device layer of a monolithic CMOS electronics-photonics platform with a full-digital back-end-metal stack, in post-fabrication at die level, allowing the integration of functional materials (e.g. into slot waveguides).”
Paper requires payment to view. For those extra curious who want to read the details, go ahead and support Optica by purchasing the white paper.
-KCC
https://opg.optica.org/abstract.cfm?uri=CLEO_SI-2023-STh3H.4
Reddit link >> https://www.reddit.com/r/LWLG/comments/154a4rw/white_paper_hybrid_integration_of_exotic/
Oh My!! LWLG to the rescue of Intel/Ayar/GF!!! Today, silicon microring modulators are perceived as promising to implement such links; however, they provide limited bandwidth and need thermal stabilization systems.
Confirmation on what ole Proto been telling y'all here!!!
LWLG has NO COMPETITION!!!!
NOTHING EVEN CLOSE!!!!
White Paper - Hybrid Integration of Exotic Materials in CMOS Platform
This white paper marks the first direct evidence of a connection between GlobalFoundries, (Intel)Ayar Labs, and EO polymers.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=172390283
here, in case you missed it >>>
Intel/Ayar MRR fatal issues solved by LWLG Polymers, just read posts #133274_#133275_#133276 and understand the following about the position LWLG is currently in, here to summarize for you,
#133274 Intel/Ayar for many years now have focused on their Next-Gen Photonics solution using silicon based MRR's, but there is an inherent problem with this technology, temperature control, which cannot be solved, at least not economically, read this to better understand,
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=171251782
#122275 LWLG Polymers CAN solve the issues that Intel/Ayars cannot, therefore it is a strong probability that Intel/Ayar and LWLG are working together under NDA's currently, read this to better understand,
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=171251787
#133276 Intel in 2022 after a handful of years selling Photonics devices achieved RECORD unit volume of about 2 million units!! Here KCC points out that LWLG can achieve these same volumes, perhaps even more, with one small Foundry & one Customer!! read this to better understand,
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=171251790
Ok, now consider the following,
Lebby in Podcast 2/14/23 said "We work with Big Silicon Foundries"
https://telecomreseller.com/2023/02/14/lightwave-logic-technology-enables-the-existing-fiber-internet-infrastructure-to-perform-3-times-faster-than-current-speeds-podcast/
I don't hear any doubts in Lebby's mind that LWLG is going to become Ubiquitous!!!
I heard you sold all your shares at the start of the 21’ run (3ish)….got caught with your pants down….bought back 30% of original share count at $9. Is that true?
It would explain you being disgruntled.
sorry to learn you have been "conned" many times before....
( perhaps a good reason to stay modest with all your claims about being able to read between the lines....)
So all of these investment companies are all stupid for buying LWLG? The proof is in the putting....
Gateway Wealth Partners LLC purchased a new stake in shares of Lightwave Logic during the fourth quarter worth about $62,000.
Nisa Investment Advisors LLC boosted its position in Lightwave Logic, Inc. The fund owned 40,337 shares of the basic materials company's stock after acquiring an additional 38,437 shares during the quarter
Virtu Financial LLC purchased a new position in Lightwave Logic in the first quarter valued at about $90,000
SG Americas Securities LLC increased its position in shares of Lightwave Logic by 153.6% during the first quarter.
Walkner Condon Financial Advisors LLC increased its position in shares of Lightwave Logic by 35.3% during the first quarter
UMB Bank n.a. now owns 303,092 shares of the basic materials company's stock worth $1,585,000 after acquiring an additional 3,000 shares during the last quarter
What happened to the poster who predicted pps would slide down to $4/$5. I am waiting to buy more.
Agreed, that 27K trade could be a smart short starting to cover.
I agree .....
AND I believe LWLG is unique
and thats why I stay invested
But Totally understand if you don't....
but don't understand why you wouldn't/don't move on in that scenario.....
we differ. All opinions affect the stock. Lots of traders here. Who? Most likely some of the ones that post the most.
Xena, Lightwave's trading number of >1k blocks appears fairly high versus volume being much lower today and yesterday. Any interpretation? Appears to be some higher professional interest.
Wow, just saw your update of 27k block at 12:33 pm that was filled at $6.6 Someone's definitely showing higher interest.
Results - i.e., sales - are the ONLY thing that matters. Nothing in 2 decades of being publicly traded. Name ONE other company that’s gotten away with that kind of utter BS! I dare you. Just One!! The Keystone Cops of photonics.
The stock just started acting very well. Nice spurt in volume.
First off, your opinion is not equal to the truth.
Secondly, believing that some people on a forum are able to keep the price from tanking or jumping is just laughable.
Blocks >= 1K - 27K fill just now
08/08/23 12:33:42 6.60 6.58 6.60 27,000
08/08/23 12:33:42 6.59 6.58 6.60 1,000
08/08/23 12:33:27 6.5935 6.58 6.60 5,000
08/08/23 12:27:33 6.5668 6.54 6.57 1,000
08/08/23 12:21:46 6.66 6.64 6.66 1,000
08/08/23 12:20:41 6.6109 6.61 6.64 1,000
08/08/23 12:19:55 6.65 6.62 6.64 1,056
08/08/23 12:17:46 6.61 6.54 6.56 10,900
08/08/23 12:16:52 6.56 6.52 6.54 4,200
08/08/23 12:16:52 6.56 6.52 6.54 2,900
08/08/23 12:04:36 6.525 6.50 6.55 1,000
08/08/23 12:04:09 6.54 6.49 6.51 2,400
08/08/23 11:51:23 6.46 6.44 6.46 8,500
08/08/23 11:50:11 6.42 6.40 6.42 2,700
08/08/23 11:48:15 6.4099 6.40 6.41 1,500
08/08/23 11:46:57 6.405 6.40 6.41 1,000
08/08/23 11:40:28 6.40 6.40 6.43 1,000
08/08/23 11:35:14 6.335 6.33 6.34 1,000
08/08/23 11:13:24 6.325 6.33 6.34 1,500
08/08/23 11:05:59 6.33 6.33 6.34 7,900
08/08/23 11:05:57 6.33 6.33 6.34 7,600
08/08/23 11:05:57 6.33 6.33 6.34 2,000
08/08/23 11:05:28 6.33 6.33 6.34 8,700
08/08/23 11:01:16 6.31 6.31 6.32 1,556
08/08/23 11:01:15 6.34 6.34 6.35 2,500
08/08/23 11:01:15 6.34 6.34 6.35 1,200
08/08/23 11:01:15 6.34 6.34 6.35 1,600
08/08/23 11:01:15 6.34 6.34 6.35 2,300
08/08/23 11:01:15 6.34 6.34 6.35 3,000
08/08/23 11:01:15 6.34 6.34 6.35 1,200
08/08/23 11:01:15 6.34 6.34 6.35 1,100
08/08/23 11:01:15 6.34 6.34 6.35 1,100
08/08/23 11:01:15 6.34 6.34 6.35 1,200
08/08/23 11:01:15 6.34 6.34 6.35 1,100
08/08/23 11:01:15 6.34 6.34 6.35 1,200
08/08/23 11:01:15 6.34 6.34 6.35 6,200
08/08/23 11:00:54 6.34 6.34 6.35 2,200
08/08/23 10:23:05 6.35 6.35 6.37 2,000
08/08/23 10:01:56 6.389 6.38 6.41 1,400
08/08/23 10:01:41 6.40 6.38 6.42 2,000
08/08/23 09:50:20 6.37 6.37 6.39 3,072
08/08/23 09:50:20 6.37 6.37 6.39 17,500
08/08/23 09:50:20 6.36 6.37 6.39 2,100
08/08/23 09:50:20 6.36 6.37 6.39 2,200
08/08/23 09:50:20 6.36 6.37 6.39 1,800
08/08/23 09:50:20 6.36 6.37 6.39 1,400
08/08/23 09:50:20 6.36 6.37 6.39 2,200
08/08/23 09:47:07 6.425 6.40 6.45 1,000
08/08/23 09:46:40 6.425 6.40 6.45 1,000
08/08/23 09:37:52 6.4712 6.44 6.50 1,000
08/08/23 09:37:21 6.4644 6.41 6.47 1,000
08/08/23 09:36:14 6.395 6.37 6.42 1,000
08/08/23 09:35:56 6.395 6.37 6.42 1,000
08/08/23 09:31:32 6.37 6.37 6.48 7,600
08/08/23 09:31:32 6.37 6.37 6.48 2,200
08/08/23 09:30:01 6.40 6.37 6.47 2,900
08/07/23 16:48:24 6.51 6.35 6.75 1,000
08/07/23 16:01:38 6.51 6.30 6.75 1,500
08/07/23 16:01:28 6.51 6.30 6.75 2,000
08/07/23 16:00:07 6.51 6.49 6.55 2,100
08/07/23 16:00:07 6.51 6.49 6.55 1,000
08/07/23 16:00:00 6.52 6.51 6.52 30,200
08/07/23 15:43:35 6.48 6.48 6.49 1,100
08/07/23 15:43:35 6.48 6.48 6.49 1,600
08/07/23 15:40:04 6.48 6.48 6.49 1,800
08/07/23 15:27:11 6.50 6.47 6.48 3,400
08/07/23 15:26:40 6.48 6.46 6.48 8,500
08/07/23 15:26:40 6.48 6.46 6.48 8,300
08/07/23 15:26:40 6.48 6.46 6.48 1,900
08/07/23 15:26:13 6.455 6.44 6.47 1,000
08/07/23 15:10:09 6.39 6.38 6.39 1,826
08/07/23 15:10:09 6.36 6.37 6.39 3,100
08/07/23 15:10:09 6.36 6.37 6.39 1,800
08/07/23 15:10:09 6.36 6.37 6.39 1,000
08/07/23 15:10:09 6.36 6.37 6.39 2,100
08/07/23 15:10:09 6.36 6.37 6.39 1,300
08/07/23 15:10:09 6.37 6.37 6.39 1,800
08/07/23 15:10:09 6.37 6.37 6.39 1,100
08/07/23 12:52:16 6.44 6.42 6.44 2,000
08/07/23 11:38:20 6.38 6.37 6.39 1,000
08/07/23 11:36:39 6.37 6.36 6.38 3,000
08/07/23 11:34:15 6.36 6.36 6.37 1,224
08/07/23 11:34:15 6.36 6.36 6.37 1,100
08/07/23 11:33:04 6.36 6.36 6.37 1,700
08/07/23 11:33:04 6.36 6.36 6.37 1,700
08/07/23 11:33:04 6.36 6.36 6.37 1,400
08/07/23 11:32:59 6.3602 6.36 6.37 5,000
08/07/23 11:32:15 6.36 6.36 6.37 1,500
08/07/23 11:25:28 6.43 6.39 6.41 25,300
08/07/23 11:25:28 6.43 6.39 6.41 1,000
08/07/23 11:09:13 6.42 6.42 6.44 1,900
08/07/23 11:09:13 6.42 6.42 6.44 1,100
08/07/23 10:42:01 6.51 6.49 6.52 2,600
08/07/23 10:40:54 6.53 6.45 6.48 10,000
08/07/23 10:40:54 6.4797 6.45 6.48 1,200
08/07/23 10:39:45 6.44 6.43 6.45 2,600
08/07/23 10:35:38 6.41 6.40 6.42 1,000
08/07/23 10:31:16 6.425 6.41 6.44 2,000
08/07/23 10:18:10 6.3837 6.36 6.39 1,000
08/07/23 10:17:49 6.375 6.36 6.39 1,000
08/07/23 10:11:27 6.4001 6.40 6.42 4,500
08/07/23 10:03:48 6.37 6.36 6.38 1,520
08/07/23 10:03:15 6.37 6.36 6.38 1,600
08/07/23 09:54:51 6.429 6.41 6.45 1,000
08/07/23 09:35:11 6.5366 6.51 6.55 3,000
08/07/23 09:30:01 6.53 6.37 6.53 3,400
08/04/23 16:01:59 6.49 6.25 6.57 2,000
08/04/23 16:00:05 6.49 6.47 6.53 2,000
08/04/23 16:00:05 6.49 6.47 6.53 1,000
08/04/23 16:00:05 6.49 6.47 6.53 1,800
08/04/23 16:00:05 6.50 6.47 6.53 2,597
08/04/23 16:00:05 6.50 6.47 6.53 2,853
08/04/23 16:00:00 6.50 6.47 6.51 30,133
08/04/23 15:59:49 6.49 6.48 6.50 1,836
08/04/23 15:57:02 6.48 6.49 6.50 1,528
Like I said here before we longs are educated, quite intelligent group not easily be fooled.
Been there, done that. Had too many CEOs lie to my face. The best cons are very good at it...sometimes they may even be conning themselves..I prefer FACTS.. Actions speak louder than words.
I agree Proto. I've been watching the trading action yesterday and also today and it is VERY interesting as the MMs hunts for shares without upsetting the stock price. And price is holding if not green in a negative indexes market.
Yeah exactly my point, Bard is likely hallucinating and making up the information about any "LWLG Optical Encryption".
It's an LLM and not a source of truth.
The claim in the original "article" on the digitaljournal website also appears to have no backing and returns no relevant results when searched for.
you spent a lot of time indeed,
must be hours and hours........but...for some reason you did not do the most obvious/logical thing to do (especially when living in the US) : meet them and look them in the eye....
one can only wonder why....
I smell NEWS coming!! 7's on deck!! eom
MrNewGuy behaves just like MrOldGuy (aka sonata and others of his ilk).
https://investorshub.advfn.com/boards/profile.aspx?user=832189
Beware longs, they are heavy on lies and absent of factual content.
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The need for Lightwave Logic’s proprietary electro-optic polymers is more evident than at any prior point in history, with internet infrastructure coming under increasing strain due to increased online activity. For example, during the recent COVID-19 pandemic, leading platforms such as YouTube prevented high-definition (HD) streaming in Europe due to data throughput issues in existing internet infrastructure.
The Company’s current focus is on the datacom and telecommunications hardware supply chain for the 100 Gbps and 400 Gbps fiber optics communications market, seeking to integrate its proprietary materials into the devices that comprise key components in today’s internet infrastructure. Lightwave Logic’s unique value proposition, including ease of manufacture relative to traditional solutions, has driven several tier-1 and tier-2 potential strategic partners in the data and telecommunications markets to enter into non-disclosure agreements (NDAs) with Lightwave Logic to evaluate its technology for use in their devices, validating the demand for the Company’s solution in the marketplace. The Company expects to introduce its technology into the commercial marketplace in the near future.
Lightwave Logic is a wholly U.S.-based company with in-house materials synthesis, device/package design, wafer fabrication and testing capabilities at its Englewood, Colorado headquarters.
Having the modulator and integrated circuit development in-house has informed the materials development direction and vice versa. This vertically integrated business model enables a superior platform by aligning the design for manufacturability from materials to complex circuits with the following benefits:
Materials are called electro-optic when they enable interactions between applied electric fields and light passing through them. Notably, they change the refractive index seen by the light with minimum loss. The result is an instantaneous and accurate conversion of an electrical signal to an optical signal. Optical signals are better for transmission over distance: an increasingly useful feature as digital signal speeds are now reaching the GHz and THz ranges and the corresponding electrical transmission distances are shrinking to meters and centimeters.
EO polymers are intrinsically superior in speed and sensitivity to electric field to traditional electro-optic materials such as Lithium Niobate, Indium Phosphide and Silicon. They are engineered materials, made by embedding a variety of specially designed electro-optic chromophore molecules into a wide range of standard host polymers.
Chromophores are complex, large molecules, on a scale akin to drug molecules. They are hyperpolarizable, meaning their electron clouds are easily pulled into a different shape by the applied electric field, changing their optical properties such as index of refraction.
The material is poled to become electro-optic by applying a strong electric field along with heat. The hot material is relatively soft, allowing the chromophore molecules suspended in the host polymer to align in the same direction (poling). Cooling the poled material after the molecules are in place traps them in their active state even after the poling field is removed.
Although the electrons in the material respond to any applied electric field, they remain tightly bound to the molecule. The response to an applied signal is almost instantaneous response and recovery– like that of a tight spring– unlike materials that involve much slower macroscopic movement of free electrons.
Another key difference from traditional crystalline materials is the performance of EO polymers continues to improve as chemists explore the almost unlimited design space. Combinations of chromophores and host polymers can be tailored for specific applications.
In addition to innovating the EO polymer materials, Lightwave Logic takes its technology platform to the next level by developing ancillary materials and processes. These elements are brought together and demonstrated in advanced high-speed optical modulators.
The polymer is spun onto silicon wafers and standard microfabrication techniques are used to deposit and pattern metal electrodes and optical waveguides.
One well-known optical modulator device is the Mach-Zehnder interferometer. The light output is changed by changing the relative phase between the two arms. One common trick to double the effect for the same available drive voltage is to drive the two arms in opposite directions (push-pull mode). Polymers have an interesting advantage over most other electro-optic materials which are crystalline. The direction of polymer’s electro-optic activity is entirely determined by the direction of the applied poling field. By poling the two arms of the Mach-Zehnder in opposite directions, the resulting device automatically has push-pull operation with a single applied signal.
Once the modulator chip is made, it is packaged for mechanical protection and also to ensure signal quality for electrical and optical connections.
Below is a polymer optical modulator with >60 GHz bandwidth packaged with high-speed electrical connectors and optical pigtails.
Inspired by the remarkable record of integrated microelectronics, the opto-electronics industry has great interest in developing photonic integrated circuits (PICS). Photonics refers to devices that manipulate photons—that is, light—rather than electrons.
Even the best individual devices can be made more functional by integrating many together. Integration has many benefits, the most notable being dramatic improvements in size and cost. Yet, photonic integration has only recently come into the spotlight. The primary applications for photonics used to require stand-alone, high performance components such as used for long-haul telecom.
Now, photonic integration has suddenly come into the spotlight as electronic interconnects struggle to keep up with speed increases of electronic chips. Photonics is being looked at to replace electronics in already highly integrated applications such as chip interconnect. Co-packaging of electronics integrated circuits (ICs) with photonic interconnect, considered unlikely a few years ago, is now viewed by many as inevitable. However, this requirement poses new challenges that are acknowledged as difficult and that new technologies will be required to meet them.
P2IC™ (Polymer Photonic Integrated Circuits) are ideally positioned to be one of these new technologies. Lightwave Logic’s devices are made using conventional wafer-scale processing such as used for microelectronics and therefore similarly capable of being integrated. In addition, the polymer microfabrication processes are compatible with other materials platforms such as Silicon Photonics and Indium Phosphide which are now starting to become more integrated. In particular, the Silicon Photonics ecosystem has recently accepted that its roadmap will include adding more and more materials, each for their specific benefits. EO polymers’ speed and voltage advantages are attractive additions to this ecosystem.
A fiber link sends data from a transmitter to a receiver through an optical fiber cable. Lightwave Logic’s technology can be used to make a data modulator, a central function of the transmitter.
Datacenters and high-performance computing (HPC) are two market segments that demand the very highest speed optical fiber communications. The datacenter fiber communications segment includes applications ranging from connections inside hyperscale datacenters to fiber links between datacenter campuses.
Optical fiber communication is the infrastructure that supports internet content through its entire lifecycle, between businesses, consumers and datacenters. Behind the scenes, massive amounts of data move between computer processors inside datacenters (or inside supercomputers) as content is generated. In addition to these intra-datacenter links, there are also significant datacenter interconnection links between big datacenters to provide flexible capacity and resilience – all of these represent significant addressable market segments for Lightwave Logic’s technology.
Modulator performance limits the speed of the transmitter, which in turn limits the data-carrying capacity of the entire fiber link. EO polymers have superior speed and sharply reduce the electrical power needed to operate the modulators.
Lightwave Logic estimates that in 2019, the total market for opto-electronic components used in the fiber optics market reached a value of ~$26 billion and is forecasted to grow to approximately $80 billion by 2030.
Above: Market forecasts for photonic (electro-optic) components and transceivers used in optical fiber communications. (Source: Oculi LLC)
The growth in the optical fiber communications market is driven by many factors, primarily:
The historic trend has been a migration from text to graphics, followed by still graphics to increasingly high-definition video. On the accessibility front, the introduction of 5G will enable low-cost mobile internet connections at the same, or higher speeds, as today’s home broadband. This trend continues today as users demand more data at all times.
Recently, particularly since the onset of the COVID-19 pandemic, there has been a sharp increase in reliance on video-conferencing services, often replacing in-person meetings. As video conferencing becomes more commonly used, users will continue to demand faster response times to enable no-lag, real-time communications in full HD.
The benefits of EO polymers, such as low power usage, high speed, increased throughput and lower cost make them ideally suited for markets outside of communications as well, including in consumer, media, augmented reality/virtual reality, medical and industrial applications.
Developing, protecting and commercializing intellectual property is central to Lightwave Logic’s identity as a technology company. Lightwave Logic has over 50 U.S. and international patents and applications that are issued or pending.
These patents provide freedom of manufacture for the company’s electro-optic (EO) polymer materials systems and its optical device technology.
Lightwave Logic’s patent portfolio covers the following areas:
The company continuously seeks to innovate new electro-optic chromophores, designing molecular architectures to meet application needs such as high electro-optic activity and stability. We also design ancillary materials that are useful in conjunction with the EO polymers themselves. Example patents within the materials category include:
Publication Number | Title |
---|---|
US Patent 7,902,322 | Nonlinear optical chromophores with stabilizing substituent and electro-optic devices |
US Patent 9,535,215 | Fluorinated Sol-Gel Low Refractive Index Hybrid Optical Cladding and Electro-Optic Devices Made Therefrom |
As the company demonstrates its materials in devices, such as modulators, it has engineered ways to enhance device performance by means of device design and optimized control. Example patents within the optical device category include:
Publication Number | Title |
---|---|
US Patent 10,520,673 | Protection layers for polymer modulators/waveguides |
US Patent 7,738,745 | Method of Biasing and Operating Electr-Optic Polymer Optical Modulators |
Materials innovations are followed by methods in which the Company or its partners can best work with the materials in the fabrication process. Example patents within the fabrication category include:
Publication Number | Title |
---|---|
US Patent Application 20190353843 | Fabrication process of polymer based photonic apparatus and the apparatus |
US Patent 10,591,755 | Direct-drive polymer modulator methods of fabricating and materials therefor |
Polymers can be used to add functionality to existing semiconductor devices, inclusive of making photonic integrated circuits (ICs). Areas of active innovation include how to get light from one material system into another with minimal losses. Example patents within the semiconductor integration category include:
Publication Number | Title |
---|---|
US Patent 10,527,786 | Polymer modulator and laser integrated on a common platform and method |
US Patent 10,511,146 | Guide transition device with digital grating deflectors and method |
Challenges for high-speed optical packaging includes maintaining the quality of radio-frequency electrical signals and hermetic/environmental sealing of devices for durability (while still allowing light to go through). Example patents within the packaging category include:
Publication Number | Title |
---|---|
US Patent 10,574,025 | Hermetic capsule and method for a monolithic photonic integrated circuit |
US Patent 10,162,111 | Multi-fiber/port hermetic capsule sealed by metallization and method |
We cannot assure you that we will meet the conditions of the 2023 Purchase Agreement with Lincoln Park in order to obligate Lincoln Park to purchase our shares of common stock, and we cannot assure you that we will be able to sell any shares under or fully utilize the Roth Sales Agreement. In the event we fail to do so, and other adequate funds are not available to satisfy long-term capital requirements, or if planned revenues are not generated, we may be required to substantially limit our operations. This limitation of operations may include reductions in capital expenditures and reductions in staff and discretionary costs.
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