What Does it do?: Quantum Entanglement Device(QED)

[FooToo]

I made a nice Video Talking about Theories of Quantum Mechanics, but more specifically Quantum Entaglement and its role with the Weapon (QED) in the next map "Moon".

Video: zzENP5nEIJw

For those not wanting to watch the video i had written up what i said and yes i did say "phenomena" wrong in the video hahaha it was misspelled when i read it.

Text: (Note: Its in a Spoiler due to its size)

EDIT: Spoilers Dont Work >_> its in a Quote for now..

What Does it do?: Quantum Entanglement Device (QED)

Hey Guys today im talking specifically about the Quantum Entaglement Device or QED for short for the

next Zombie map "Moon" in the Rezurrection Zombie Pack. This so called QED is said to tap into the

theories behind Quantum Mechanics, so for today i have come up with a new small mini Series Called

"What Does it do?". In this i will try my best to make you understand some things behind Quantum

Mechanics and what this QED may possibly do. To Start Quantum mechanics is the body of scientific

principles which attempts to explain the behavior of matter and its interactions with energy on the

scale of atoms and atomic particles.

The Schrödinger cat paradox:

The Schrödinger cat paradox is about a cat, confined in a cage together with a radioactive

atomic nucleus having a probability 1/2 of decaying within the next hour. If the nucleus decays,

a contraption is set into motion causing the cat to die, if not then the cat stays alive.

This process is assumed to result in a superposition of a living and a dead cat

(so-called `Schrödinger cat state').

As originally conceived by Schrödinger, the cat is acting as a macroscopic measuring instrument

for registering the decay of a microscopic particle. The `cat paradox' is about the physical

meaning of the `Schrödinger cat state' it is sometimes called a state of "suspended animation"),

in which the cat is thought to be neither alive nor dead, but just to possess (ontological)

probabilities to manifest itself as `alive' or `dead' if it is observed. It is felt as paradoxical

that in `realist individual-particle interpretations' it is impossible to attribute the value `alive'

or `dead' to a cat described by a `Schrödinger cat state', but that it seems necessary to invoke

observation to change the cat into either alive or dead.

In Terms: Who knows? Looking in the box would alter the reality. It's impossible to tell!

Designed to illustrate the difficulty of determining reality, this thought problem implies

that the cat is both alive and dead until we open the box.

Using quantum entanglement:

Quantum-mechanical phenomena such as quantum teleportation, the EPR paradox, or

quantum entanglement might appear to create a mechanism that allows for faster-than-light (FTL)

communication or time travel, and in fact some interpretations of quantum mechanics such as the

Bohm interpretation presume that some information is being exchanged between particles instantaneously

in order to maintain correlations between particles. This effect was referred to as "spooky action

at a distance" by Einstein. Nevertheless, the fact that causality is preserved in quantum mechanics

is a rigorous result in modern quantum field theories, and therefore modern theories do not allow

for time travel or FTL communication. In any specific instance where FTL has been claimed, more

detailed analysis has proven that to get a signal, some form of classical communication must

also be used. The no-communication theorem also gives a general proof that quantum entanglement

cannot be used to transmit information faster than classical signals. The fact that these quantum

phenomena apparently do not allow FTL time travel is often overlooked in popular press coverage

of quantum teleportation experiments. How the rules of quantum mechanics work to

preserve causality is an active area of research.

In Terms When the QED is used on the zombies it will Teleport them away or send them to a paradox.

Its hard to tell what exactly this device will do in terms of Quantam Mechanics but when it comes

to the acutal name of the device. The Quantum Entanglement Device or QED for short should tap into the

theories of Teleportation, alternate realites and also Paradox's. If this is true then you may need to

set up One at point A and when you use the second one it teleoprt the zombies in the area to Point B.

need i say this is just a guess but atleast i explained a tid bit of Science to you haha.

[Technicuddle]

So it would kinda be like a Portal gun?

[FooToo]

Possibly.. Its a good educated guess going on what hard facts we have on Quantum Mechanics and Quantum Entanglement :)

[JamesZombiKiller]

Another part of quantum entanglement shows, if you entangle two particals, then exert a force on one, the other does the exact opposite. Spin one clockwise the other spins anti-clockwise. Or shoot one living zombie all other zombies DIE! :D

[Matuzz]

Apparently this Quantum Entanglement Device or in short QED will either "curse" or "bless" the player.

First Time travel and Quantum Entanglement

Quantum-mechanical phenomena such as quantum teleportation, the EPR paradox, or quantum entanglement might appear to create a mechanism that allows for faster-than-light (FTL) communication or time travel, and in fact some interpretations of quantum mechanics such as the Bohm interpretation presume that some information is being exchanged between particles instantaneously in order to maintain correlations between particles. This effect was referred to as "spooky action at a distance" by Einstein.

Nevertheless, the fact that causality is preserved in quantum mechanics is a rigorous result in modern quantum field theories, and therefore modern theories do not allow for time travel or FTL communication. In any specific instance where FTL has been claimed, more detailed analysis has proven that to get a signal, some form of classical communication must also be used. The no-communication theorem also gives a general proof that quantum entanglement cannot be used to transmit information faster than classical signals. The fact that these quantum phenomena apparently do not allow FTL time travel is often overlooked in popular press coverage of quantum teleportation experiments. How the rules of quantum mechanics work to preserve causality is an active area of research.

Quantum Entanglement is connected to Wormholes and Cassimir device:

Raychaudhuri's theorem and exotic matter:

To see why exotic matter is required, consider an incoming light front traveling along geodesics, which then crosses the wormhole and re-expands on the other side. The expansion goes from negative to positive. As the wormhole neck is of finite size, we would not expect caustics to develop, at least within the vicinity of the neck. According to the optical Raychaudhuri's theorem, this requires a violation of the averaged null energy condition. Quantum effects such as the Casimir effect cannot violate the averaged null energy condition in any neighborhood of space with zero curvature, but calculations in semiclassical gravity suggest that quantum effects may be able to violate this condition in curved spacetime. Although it was hoped recently that quantum effects could not violate an achronal version of the averaged null energy condition, violations have nevertheless been found, thus eliminating a basis on which traversable wormholes could be rendered unphysical.

Cassimir and quantums

In quantum field theory, the Casimir effect and the Casimir–Polder force are physical forces arising from a quantized field. The typical example is of two uncharged metallic plates in a vacuum, placed a few micrometers apart, without any external electromagnetic field. In a classical description, the lack of an external field also means that there is no field between the plates, and no force would be measured between them. When this field is instead studied using quantum electrodynamics, it is seen that the plates do affect the virtual photons which constitute the field, and generate a net force—either an attraction or a repulsion depending on the specific arrangement of the two plates. Although the Casimir effect can be expressed in terms of virtual particles interacting with the objects, it is best described and more easily calculated in terms of the zero-point energy of a quantized field in the intervening space between the objects. This force has been measured, and is a striking example of an effect purely due to second quantization. However, the treatment of boundary conditions in these calculations has led to some controversy. In fact "Casimir's original goal was to compute the van der Waals force between polarizable molecules" of the metallic plates. Thus it can be interpreted without any reference to the zero-point energy (vacuum energy) or virtual particles of quantum fields.

Back to Quantum Entanglement Device and its rewarding/cursing. So it being random.

Is Anything Truly Random?

So to find true randomness, Acin and his colleagues turned to the world of atoms and electrons, and to the laws of quantum mechanics.

"To be more precise, we are taking advantage of the nonlocal correlations of entangled quantum particles," he says.

So that means that the laws of quantum mechanics say some things truly are random, like for example, the clicks a Geiger counter makes when it measures something radioactive.

"Those are random, due to quantum mechanics," says Christopher Monroe, Acin's colleague at the University of Maryland.

But Monroe says there's a problem with the random clicks of a Geiger counter. You can't be certain that the box the counter is in doesn't have a mechanical flaw, or even worse, a device that records the clicks and sends them to your enemy.

"A stronger form of random-number generators are so-called device independent. It doesn't matter what's inside the box," Monroe says.

Tied Up In Quantum Entanglement

This is where the weird properties of quantum mechanics come in. In this world, you can have a magnet that is pointing north and south at the same time, so long as you don't look at it.

"And when you do look, it randomly pops into one or the other," Monroe says.

So to capture that random popping, Monroe took an atom of ytterbium (a soft silvery metallic element), which has "an outer electron that is very much like a bar magnet," he says. "It can be north up or south up."

Then he took a second ytterbium atom and entangled them. He yoked them together in a quantum sense. The work of Albert Einstein and another physicist, John Bell, says if you can entangle two atoms, then you can prove when they pop out of their simultaneous up-and-down state, they will do so randomly.

"It turns out that quantum entanglement is very hard to come by," Monroe says.

It has been tested with a button that randomly generates series of 0 and 1 numbers.

When some one for instance wants more number ones than zeros, he has bigger chance to get actually more number ones.

And so person can effect on the world:

9QcKDvcnZrE

[FooToo]

You sir are On Key right down the the words on paper.

I Would of said something about the Casimir device but i was trying to dumb it down for the noobs :)

[jjharrison]

SIMPLE VIDEO

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Also i think i have a good idea on what th QED will be like

nobody knows for sure what quantum entanglement is capable of but it may be linked to time and space travel

This is what i think it will do

You throw it out like a monkey bomb and it will act in different ways that can be good or bad

1. Time travel it send you fowards a round or back a round

2. Teleportation Randomly places you around the map

3. Acts like a monkey bomb

4. explodes

And so it will be realy fun to throw out and see what happens