First things first. I do hereby claim and reserve all rights to the Information Retrotransmission invention described herein in all jurisdictions in the USA, globally and into space (I’ll explain why the latter is essential a little later).

I decided some time ago that I have more ideas than resources to implement or execute them and if I am ever going to give my gifts to the world1 before I die, I’d best just put them out there instead of trying to keep them trade secrets or embargo them until I can get a great patent law firm to write up my claims.

Also, if anything happens to me, let the royalties and/or settlements related to this invention go to secure and develop permaculture farms where the maximum number of people can live simply in peace and in harmony with nature. No sneaky “Boujie Farms” for the lucky few though— just an honest sustainable living situation for those willing to work with nature and each other in dignity and extend that courtesy to as many people as the funds can be stretched for.

Now, down to business…

CISCO is now producing a chip that generates up to 200 million entangled pairs of photons per second.2

The Delayed Choice Quantum Eraser (DCQE) experiment has demonstrated that an entangled photon will present, in both the ‘display’ and ‘time’ meanings of the word, as either a particle or a wave, depending on whether or not its twin entangled photon is detected as having gone through one of two discrete slits or not. Either its twin’s “which-way” information is observed and determined or not observed, leaving its “which-way” information ambiguous.

Arvin Ash explains the DCQE experiment very well in his youtube3

Let’s call the twin photons Castor and Pollux4. Castor goes through the double slit and creates either a solid bar pattern (particle behavior) or an interference pattern (wave behavior) at the upper detector in Arvin’s diagram. Pollux goes through a beam-splitter prism that randomly reflects 50% of the photons coming through it into each of two paths: (a) detects the “which-way” status and collapses the photon’s probability wave into particle-ish behavior (to the right of the beam splitters in Arvin’s diagram) or (b) no separate detection is performed and Pollux’s “which way” information is discarded (below the beam splitters in Arvin’s diagram).

So far, so good.

The really weird thing is that Castor “knows” whether to present as a particle or a wave (an interference or a solid pattern) before Pollux even goes through the beam splitter prisms. The information about which-way Pollux gets reflected is somehow available to Castor before it’s possible to know if Pollux is going to take the detected or undetected path.

Nobody knows how.

But that won’t keep us from sending data back in time to pwn the stock market, right? After all, Biff never understood how is was possible for a 2015 sports almanac to come into his possession in 1955, but he was still happy to use the info to amass an insanely large fortune, nonetheless.

So how do we use the DCQE experiment to send stock price info from the market’s closing bell back to, say, just after lunch so we can take out some short or long positions in the market at 1:00 , take a nap and wake up with some double-digit returns to cash out at 4:30 every afternoon?

First, replace the beam-splitter prism with a switchable mirror that’s 100% reflective similar to SLR (Single Lens Reflex) cameras’ mirrors prior to digital photography. Let the switchable mirror (shutter) be controlled by a digital stream of ones and zeroes representing the message you want to send back to 1:00 pm— buy this, sell that, short this, long that, the DEFCON 1 this afternoon will be a false alarm and ground flight 9463 because it would have had multiple engine failures over the Pacific— whatever info you want to send back about four hours.

Now all we have to do is make sure Pollux takes his own sweet time getting from the CISCO chip to the switchable shutter mirror. Keeping a photon busy for four hours isn’t easy. If you had a special glass fiber that slowed light down to 3 mph, you could just send Pollux into one end of a 12 mile fiber optic cable at 1:00 and he’d come out the other end at 5:00. But, if such special glass is too hard to find, you could also just shoot Pollux into space and reflect him back from, say, the orbit of Uranus or Neptune before he goes into the switchable shutter-mirror. Or give Pollux $40 and send him off to watch a matinee film, get a burger and come back at 5:00. Any method of delay will do.

How do you work the thing?

It’s simple, but mind-boggling to contemplate.

At 1:00pm you have the detector for the Castor stream of photons read off zeroes and ones (interference or solid pattern) and convert these into a message that you then, unquestioningly, take action on— buying, selling, calling NORAD and the FAA, placing sports bets, etc.

Lock the door. You don’t want Biff or Marty to sneak in and take control of the device while you’re napping.

Take a short nap. Get up about 4:00, check the newswire and market ticker-tapes and see which stocks have had the most volatility this afternoon. Encode a message to your 1:00 self with precise instructions of what to buy, sell or take other actions on. Beginning at exactly 5:00, encode the message’s ones and zeroes to control the shutter mirror over the length of time and the number of entangled photons needed to send your message.

The message you send at 5:00 pm is delivered to you four hours previous— at 1:00. Call it science. Call it magick. Call it insanely profitable.

After a couple of successful trades you can buy computers and digital mirror flippers to be able to send longer messages with more bits than you can encode flipping the shutter mirror manually. After a month or so you should be able to buy enough strategically positioned reflector probes in the solar system to send messages back eight hours, twelve hours, twenty-four hours…

Don’t tell Elon that the space probes you talked Space-X into sending up weren’t a simple experiment in instantaneous quantum-entangled modems to eliminate speed-of-light delays in space communications. He might be the first quadrillionaire anyway, but you’re going to give him a run for his money.

Lastly, do me a solid (or run an interference pattern) and share the wealth wisely.

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Manitonquat has long inspired me with this quote that he often used at the start of men’s circles and other gatherings. When used in prison settings, it is said that participants, upon release, had a recidivism (repeat offense) rate in the single digits, which is unheard of. With other programs 50% is considered very good. I recommend reading this quote often and especially anytime you begin to feel like you don’t matter.