Highlights of Prof. Hait's photonic inventions, 
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Highlights of Prof. Hait's photonic inventions, |
The entire foundation of fully photonic computing and telecommunications (having hundreds of disclosed photonic circuits,) is covered within Prof. Hait's 48 patents and patents pending. Computers and telecomm equipment based on his inventions will have capabilities far beyond even those things portrayed in the movies, simply because light is so fast, and has such a giant bandwidth… while his inventions are so basic and encompassing.
Amongst the big computing companies, the race is already on! We could call it the "charms race." In the movie 2010 Space Odyssey there was a thinking/talking computer named SAL with a delightfully seductive female voice. These companies are currently spending in the billions, because when SAL hits the $500 billion per year computing market, that company will own it! (It is as simple as that!)
Why? Because nobody wants to buy a slow computer. And a photonic computer based on Prof. Hait's work would be made of inexpensive holograms, would have enormous capability, and would operate at light-speed. Not to mention that, everybody wants a SAL!
Throw away the keyboard, forget buying other software, just ask her anything you want, and she provides the answer. It's not far-fetched. Given even today's software capabilities plus a light speed computer… and SAL is on her way… the Charm's Race is on!
Given the changes that have occurred because of the Internet, how will the World Visual Web change commerce and entertainment… when three-dimensional, full sized telecommunications becomes a reality? On Star Trek, they called it the HoloDeck. The capability exists! Its components are among Prof. Hait's inventions. So, it's just a matter of time. Will you be ready?
What will this do to global economics? What will it do to your personal economics? Global competition is heating up, rapidly. The big players aren't just competitors any more, they have become predators. The deal isn't "Lead, follow, or get out of the way" anymore. It's more like "Lead, fall way behind in the dust, or get kicked out of the way!" Even whole nations are trying to buy up each other's resources… not just oil, but technology too. Why?
Consider this, when that first company hits the market with SAL, what will probably happen to its stock?
When their entire product line, all of their sales outlets, employees, and their entire investment in bricks, mortar, and machinery suddenly becomes obsolete… what will probably happen to the stock in those old fashioned electronic computing companies who failed to study photonics? What will probably happen to the stock in your company? Should you consider selling short? Or learning about light, the simplest of the resonant fields.
Photonic computing is coming into existence, and the global conversion from electronics to photonics is unstoppable… because the electronic companies have already pushed the electron to its physical limit. It won't go much faster in a semiconductor because of inductance and capacitance… things that don't affect light. That's why Intel has estimated that it will cost $280 billion to construct the next advancement in electronics manufacturing… while yielding only a modest gain in the current computing speed. The race is on, and it's fueled by the laws of physics and economics.
Light is a resonant field system. To understand the language of light, in order to make the best, and hottest new computers, you need to understand resonant fields. It's as simple as that. How do we know? Notice the capabilities of just a few of Prof. Hait's photonic inventions.
The most fundamental and far-reaching patent is U.S. number 5,093,802, "Optical computing method using interference fringe component regions." This basic Photonic Transistor has been laboratory tested switching in 1.2 femtoseconds.
To put that in perspective, the Scientific American put it this way, "One femtosecond is to one second as one second is to 32 million years!" It uses laser light to replace electricity, and holograms to replace computer chips.
It switches in the time of one cycle of the frequency of light it's using, It is capable of independent, simultaneous, multiple-frequency, parallel operation, (even within the same physical component,) as is included in patent number 5,617,249, "Frequency-multiplexed logic, amplification and energy beam control." Certain implementations are capable of extensive bandwidth. For example, just the visible optical band from the bottom of red to the top of violet has over 39 billion fully-independent channels. Imagine a computer with a bus width that wide, and only requiring a hand full of components to do it.
It performs the Boolean functions in binary, but more importantly it has both the capability of power amplification, and the computation precision of the extensive language of light. While complex, it's also pseudorandom, out-stripping the best electronics by over 100,000 times, and all of the current methods of quantum computing.
The Photonic Transistor is a superb optical filter. While the best holographic and diffraction grating filters have achieved a bandwidth of about 15 Ghz, the photonic transistor is accurate to a singe hz, and can very accurately discern even phase modulation within the optical signal. It is capable of manipulating light to an accuracy, speed and bandwidth well beyond the needs of even the most rigorous application. See: 6,462,877 "Drop filter apparatus and method" It is ideally suited for extracting individual channels from a complex super-multi-channel beam for precision wave-division multiplexing.
In other applications, it would be capable of detecting the presence of individual elements in the odors issuing from a suicide bomber, and identifying their optical fingerprints at the speed of light, while the culprit is still walking into the airport.
Amplitude to phase conversion logic, 5,466,925, adds these unique features by providing an extremely accurate threshold detector having the ability to discern the difference of a single quanta, with single wavelength, and single cycle accuracy.
5,623,366 and 5,644,123 "Photonic signal processing amplification, and computing using special interference" uses the unique properties of very tiny wavefronts to perform multiple computing functions, from the AND circuit to binary data storage.
5,770,854 and 6,265,707 "Pattern-recognition computing and method for producing same" applies the unique features inherent in holography, and ordinary optical filtering so as to produce just about any photonic component needed. Since the photonic transistor uses holograms to manipulate light, and holograms can make an image of just about anything, this invention allows the production of functioning optical components as if one were merely taking a picture of it! And it should be noted that holograms can be manufactured extremely inexpensively.
In addition of super sized, wave division multiplexing, there are completely optical, as well as electro optical routing systems for interconnecting optical fibers as well as free-space communications systems. 6,477,287 "Polarization-preserving, phase-and-polarization-insensitive, photonic data router," 6,459,827 "Polarization-stabilizing, phase-and-polarization-insensitive, photonic data router," and 6,256,124 "Combination photonic time and wavelength division multiplexer."
6,427,033 "Photonic image router" is actually an electro-optical device for routing whole images all at once. While its switching speed is slow, it's parallel bandwidth makes every pixel of the switched image into a separate multi-wave-division multiplexed signal. That is, it uses parallelism to gain fantastic speed even while using slower components, such as are available on the market today.
5,835,246 "Addressable imaging" has the capability of producing any desired image at the speed of light including those that produce very complex mathematical calculations all at once, and even ones that are not ordinarily associated with images. For example, it could be used at microwave frequencies to cook a turkey, and slice it up when it's done. All with electromagnetic energy. It will prove invaluable when it comes time to manipulate single atoms, at light speed for the up-coming ALRM (Atomic Level Rapid Manufacturing, or Materialization) systems.
A variety of others are the glue that connects the various components together. All together there are several hundred implementations depicted just in these issued patents.
Will you cash in on the photonics revolution, or just crash into it? These are serious questions, because these inventions are real, and there are companies all over the world hammering away at break-neck speed to be the first with the best. If they are enthusiastic now, (as shown by their heavy investments,) imagine how they will be bolstered by a more rigorous understanding of resonant fields, and the way light interacts with light, and with matter?
Read Resonant Fields, the fundamental mechanism of physics made easy to understand."