Mirrors And Glass Probably, 3D images virtual quantum computer

ArmstongGe's sounds like it should denote units of interplanetary acceleration.
But how much should it be?
Any thoughts?

It should be a blissful acceleration, allowing interplanetary travelers to sleep comfortably in their spacecraft bed without worrying about their pillows and partners floating away in zero gravity.

I will sell you the acceleration, but it going to cost you fuel!

Well then perhaps 7 ArmstrongG's would give your space family a terrestrial mass of 7%.

Perhaps keep the interplanetary speed limit under x? million mph by rolling the craft longways, decelerating but maintaining 7 ArmstongGe's.

Because if you miss your destination your going to be in deep space!



Perhaps rockets and acceleration should be best migrated into my other thread in the `Space' section within the forum titled Ice Melt Mars

This post has been edited by mooncamera's on May 3 2012, 12:08 AM

Public Galleries: Like entering prepaid books of experiences; would be available within such quantum computers.

Glassmushroom Conections

When translated into another European Language the words; `Glass’ `Mushroom’ & `probably’ are ancient, and have a poetic association. The words were the inspiration behind my high-tech innerspace quantum computer. Here’s an easier to build piece of technology:

In 1989, I had a part-time job working with a clear plastic clipboard. I dreamed there must be some way to get a transparent computer into the glass and make it touch sensitive to enable typing.

These days we a not far from such technology. It wood be good if the `glasswindows’ could do the looking and make it possible to electronically interconnect the glass shopfront widow displays to a remote touch sensitive glass pane.

Customers could flick all the glass front displays in the shopping centre with mirror image resolution. It would be like two see through mirrors in different areas remote connected.

Like looking into the window of a shop to see if it’s bussy, who’s there, and what products/meals are available.

But how do we make an innocent piece of glass behave like a 3D camera?

Having thought about it for an hour, it’s conceivably possible. However it becomes confusing when thinking about it in terms of a quantum internet.

Let’s consider two individual pieces of glass side by side. Illumination enters the transparent glass from `180 by 180 degree angles’ and would exit the other piece of glass intact as if it had past through the same piece of glass.

What we would like here is the `quantum equivalent’ of a `thermionic valve 'to `coherently intensify all the 3D images' exiting the 2nd piece of glass. Because if photon-teleportation research is to be believed, it could be possible to `invisibly partially' coat the respective `pieces of glass' with a `quantum entangled material’ analogously to `partially silvering a mirror’.

The material wouldn’t be reflecting the image, but `partially absorbing' it then emitting it from the `complimentarily entangled atoms' in the 2nd pieces of glass coating where it would be `quantum intensified’ and emitted as a proper image.


My explanation is an adaptation of quantum physics research involving lasers interacting with very small amounts of rubidium and sodium atoms in quantum conditions approaching absolute zero. It would be good if it worked in user friendly conditions.

Quantum Matrix Display


By modifying the `surface terrain of the glass’ with `perfect convex pixels' of `quantum entangled material’ we can resolve the image problems of the `Mushroom Glass’.

Like `bubble wrap' but on a micro scale, Images would enter the entangled matrix from every angle, even more so, 3D images would enter every individual pixel coherently and be in a perfectly focused emission format from the other Quantum Matrix Display.

Furthermore, multiple sheets of such glass can be placed behind each other giving various focal lengths for viewing whilst adding image inputs.

The entangled material would partially absorb the images as they pass through each successive pain of glass causing an `ohm pyramid’ of `glass planes’ but facilitating the principals of building a 3D quantum internet.

There are all sorts of methods and materials that can be employed to produce something resembling a `pane of glass with exotic properties’.

I have discussed layering `thin sheets of surface modified materials’. The `modified layers of glass’ would have to be `stuck together with a transparent liquid’ `with the same refractive index as the glass’ to `correct’ and `prevent distortions of the image entering the next and successive layers.

But what entangled materials are going to want to work like a `Bose Condensate’ in room temperatures? When the quantum internet is `up and running’, is it going to need an `image decongestant’.

There have probably been recent advances in quantum physics however I haven’t `peeked on the internet to see what the are’ in 5 years.

Evan a small experimental `quantum entangle loop’ teleporting a `digital laser signal’ from a `remote control module with a video camera’ could have been used to control a `Mars probe with one finger’ from Earth instantaneously without the signal delay associated with hundreds of millions of miles.

It would be good if the principals of quantum entanglement applied to the emissions of exotic particles from the nucleus of atoms.

Because we could be able to produce `exotic particle beam’ lasers and cause `interesting effects’.

Such as having `BB sized pellet' of `U239 plated with entangled U238’ suddenly detonate remotely `from some of the entangled U238' being blasted in a nuclear reactor core in a remote area. Such controlled explosion could form the bassis of a nuclear rocket propulsion system. Not to mention a nightmare `mini gun..


In any case, it gave me some thoughts about how to `intensify the emission images in the `Quantum Matrix Display’

When three mirrors are placed in right angle alignment like in the corner of a room they reflect photon in the same direction from where they came.

The effect could be useful if the surface a reflective were modified with such triangular reflective indentations.

In the bathroom your flat mirror image would follow you around the room even when you’re not standing in front of the mirror.

Between the sheet of modified reflective material and the sheet of convexly modified glass with quantum entangled material, there would be some `stimulatable materials’ coherently amplifying the emissions from the QMD.

Offcourse the display would be based the other way by emitting inwards then reflecting an amplified image outwards.

Something to think about.

This post has been edited by mooncamera's on Oct 8 2012, 06:42 AM

Assuming the `stimulated emission like’ image amplification system in the QMD works. We would like 3D Colour QMD television and internet `without needing to wear 3D glasses’

Then the pixels in every area of the QMD have to be `evenly specialised to produce’ `Green’ `Red Yellow Blue’ spectrum amplifications (as well as surgical x-ray laser spectrum if you like lol)

In the input `glass pane’ would have filters restricting the pixels to individually evenly respond to a specific spectrum input.

The manufacturing process would be complex as is `building up the technological conception like I mentioned in the beginning of this chapter in my thread. Would be good but, if it worked wouldn’t it.


This post has been edited by mooncamera's on Oct 8 2012, 01:52 PM

Given the `spectrum amplification systems’ in the colour 3D QMD set work. The input glass pain has to be placed in front of an emission screen to enable telecommunications in both directions instantaneously.

Analogously to the way `regular TV screens’ build up an image `line by line’ the QMD could employ a method of `flicking from front to rear glass’ panes very fast.

I should say, I was only `joking’ about putting `x-ray laser’ pixels in the emission display. I wouldn’t really waste valuable pixel space on such features there.

We would like to see you `in dark rim frames’ with `mm waves’ around the edges of the set. If someone `needs their head examined then dealt with’ in a `video arcade manner with laser pistols’ the `high power particle beam lasers’ would ‘be located/contained in the edges as well’.

Now we have to build up the functions to work like a `transparent window pane’ ( it’s not transparent because of the `modified reflective emissions screen’)

This would be accomplished by building an additional suitably entangled on the QMD behind it in the other direction. Giving people a `good look in and out’ from numerous `vantage points within the galaxy instantaneously’

The beauty of a medium such as this would be the fact that it’s `Quantum Telecommunications’, and completely unrestricted by the speed of propagation between vast distances.

Come to think of it, some of `modified surfaces and materials' conceptualised in my 'QMD design' could have an application in the `photonic interconnection’ of `neural network’ computer chips.

There has to be a `computer system built in' in between the sides of `both functional window panes'.

Integrating circuit on modified surfaces would give more surface area to place directional inputs and outputs.

Something more to contemplate.

Holograms makes use of light interference. Is is possible to use a screen filter that will create light interference or use two full sets of pixels that are slightly out of phase; screen within a screen.

It sounds interesting and probably worth looking into.