Steins Gate Relativity

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There are many different theories for time travel. Steins;Gate uses the black hole theory mostly, by compressing the data of the brain (2.5 petabytes[1]), to a size sendable by the PhoneWave (name subject to change).
In the VN, Kurisu mentions that although there are many theories, 11 of them are widely accepted in the scientific world. Listed below:
A neutron star is a type of stellar remnant that can result from the gravitational collapse of a massive star. These stars have a mass around 466,000 times the mass of the earth, thus exerting a very high gravitational force (1.962×1012 m/s2, earth's is 9.81 m/s2) although they have a diameter of 10-12 Km.[2] As for the Gravitational time dilation, time would pass 30% slower on the surface of such a star, meaning that if someone could travel to such a star and withstand this gravity, they would have a way to "travel" to the future. This theory only serves for time travel to the future, to the past wouldn’t be possible.
Black holes are one of the most used resources in time-traveling novels, next to wormholes. The Kerr-black hole theory is the result of Roy Kerr's calculations for relativity. A Kerr-black hole is a singularity that possesses mass and angular momentum, but does not possess electrical charge. This hole spins around a central axis and has two event horizons, which contain a ring-formed singularity. Inside each of the two event horizons, time and space are reversed, so in a Kerr-black hole this swapping occurs twice. In theory, it's possible to escape the ring-formed singularity, although not by the same way you entered it, or simply avoiding it. Crossing the singularity would make you end up in a "negative space" (the definition is still unclear). Avoiding it would cause you to go back in time while you are crossing the first event horizon. Here's a Penrose diagram of two time travelers making their way through the black hole. The dark-blue one avoids the singularity and the light blue one crosses it:
Penrose diagram of a Kerr black hole. Credit: N. Rumiano
It is unclear exactly what light speed theory refers to, but there are several connections with other theories and some basic principles that all of them have in common, all related in various ways to Albert Einstein’s relativity.
The first form of time travel that relates to light speed is when matter is accelerated to close to light speed, causing time to slow down for it due to time dilation from Einstein’s relativity. This can only be used to travel to the future, not to the past. One way to do this is by going near a neutron star, which is what the neutron star theory is about, although there are plenty of other ways to accelerate to near the speed of light. For instance, CERN’s Large Hadron Collider accelerates protons to 99.9999991% of the speed of light, slowing down time for them by a factor of 7,454, so, for instance, if 7.454 seconds elapse in the outside world, one of the protons inside the LHC at maximum speed only experiences 1 millisecond of time elapsing (0.001 seconds). While this first form of time travel is actually hard science and not science fiction, all it accomplishes is time travel to the future, not the past.
There are a number of theoretical ways to go back in time by traveling faster than light speed that exist as solutions to the equations of Einstein’s general relativity. The most obvious faster-than-light method is through tachyons, the hypothetical particles that move faster than light, covered under tachyon theory. Another faster-than-light method of travel that operates fairly similarly is the Alcubierre warp drive, covered under exotic matter theory. There is also a method involving light that goes faster than the normal light speed, covered under Cesium Laser theory. These 3 theories all involve going at speeds faster than light speed in order to travel back in time.
Under Einstein’s relativity, in a thought experiment Einstein came up with himself, the tachyonic antitelephone, Albert Einstein devised a method to send information back in time that is possible to do using any faster-than-light travel method; Einstein’s original theory used tachyons but it works just as well for the Alcubierre warp drive that uses exotic matter and for the laser light going faster than light speed in Cesium Laser theory.
However, Light Speed theory as used by Kurisu Makise was a separate theory from the other theories, but it is unclear what she meant by it, because there are so many different theories for time travel that involve light speed, it is impossible to tell which of them she was referring to with Light Speed theory.
The Tachyon or a Tachyon particle is a hypothetical particle that always moves faster than light, Most physicists believe that faster-than-light particles cannot exist because they are not consistent with the known laws of physics. The existence of such particles, called tachyons, has not been totally ruled out, but several experiments have tried, without luck to detect them. If they did exist, and they interacted with ordinary matter, it would give us the means to communicate with the past. Tachyons could literally be sent outwards, bounce off a tachyonic mirror, and return before they were sent. This in turn would give rise to a great many logical problems. For example, if you sent a message back in time that caused your grandfather to be killed before your father was conceived, then you would not be around to send the message that prevented your birth, so that you would be around to send the message, so that you wouldn't be around....etc.
Despite theoretical arguments against the existence of faster-than-light particles, experiments have been conducted to search for them. No compelling evidence for their existence has been found. In September 2011, it was reported that a tau neutrino had travelled faster than the speed of light in a major release by CERN; however, later updates from CERN on the OPERA project indicate that the faster-than-light readings were resultant from "a faulty element of the experiment's fibre optic timing system"
Wormhole theory, as Cosmic String theory, is explained by Makise Kurisu during her press conference:
-"In that case, why don't we go to our next example, wormhole theory? It may be a little more realistic than cosmic string theory. By the way Hououin-san, do you know what wormholes are?"
-"It's like a shortcut opened through space or something... right?"
-"Yes, that's correct. There are two holes, tied together by a tunnel. Transit time through the tunnel is zero, no matter how far away the second hole is."
-"But there's a catch. The tunnel suffers from super gravity, and collapses as soon as it opens. And that's why we need something to negate the effect of gravity."
-" The so-called 'exotic matter'. It's a substance with negative mass, which repels gravity."

-"The wormhole tunnel is all squished and squashed like this fist of mine. In order to pass through, you need something inside of my hand to oppose the 'grasping force' so that I can not squish anymore."
-"If you stabilize a wormhole with exotic matter injection, teleportation becomes possible. For example, let's say there's a wormhole entrance here in Akihabara, and the exit is in LA. Now imagine the hole in LA goes all the way to the end of the universe at near-light speed. And once it reaches the end, it immediately pulls back to LA. According to the theory of relativity, time slows down for objects moving at the speed of light. Meaning the hole that returned to LA would be further in the past than the one in Akihabara. And with those co', Hououin-san can enter the wormhole and arrive at LA several years back. However, this cannot yet be called true 'time travel'. It is only 'pseudo-travel'. The so called Urashima[3] effect. The important part is to return to Akihabara from LA through the wormhole once more. Having done that, transit time becomes zero, and Hououin-san would return to Akihabara several years back. Time travel complete. The prerequisites for wormhole theory are simpler than the ones for cosmic string theory. First: the wormhole itself. They may exist somewhere in the universe, yet nobody has ever seen one. Second: The energy required to move a wormhole to the end of the universe and back near-light speed. Third: Exotic matter, which by the way, has not been confirmed to exist.'"
Exotic matter, like described in the wormhole theory, has a negative mass. However, because exotic matter wasn’t confirmed to exist at the time Steins;Gate was made, the negative mass was also just a hypothetical property, similar to the imaginary mass of tachyon particles, which have still never been verified, and possibly giving exotic matter the ability to exceed the speed of light and be used to communicate with the past.
Professor Peter Engels and colleagues at Washington State University first produced exotic matter on April 10, 2017, by using lasers to cool rubidium atoms to just above absolute zero, turning the rubidium into a bizarre type of quantum fluid known as a Bose–Einstein condensate that has very unusual properties. They used a laser trap to reverse the spin of some of the rubidium atoms in the Bose–Einstein condensate, and then released the atoms from the trap, and then applied a pushing force on the atoms, and rather than going in the direction they were pushed, the atoms went in the opposite direction.
According to Isaac Newton’s equation F = ma from Newton’s Second Law of Motion, where force equals mass times acceleration, if you push on something with positive mass, it goes in the direction it is pushed in, with the force and acceleration having the same direction. But if something has negative mass, the force and acceleration end up with opposite signs, so if a force is applied in one direction, the negative mass object is accelerated in the opposite direction. This applies both to gravity and to all other forces as well. This is why, when the team at Washington State University observed that the rubidium in their Bose–Einstein condensate went in the opposite direction from the direction it was pushed in, this confirmed that it was indeed exotic matter.
Along with the way exotic matter can be used to stabilize a wormhole in order to make it traversible for time travel via wormholes, there are other methods of time travel using exotic matter. The most popularly discussed method is the Alcubierre warp drive, which requires exotic matter to create an area of space with negative mass, and achieves faster-than-light travel by warping the space-time continuum, contracting space in front of a spacecraft using the warp drive and expanding space behind the spacecraft.
Once the Alcubierre warp drive using exotic matter is achieved, faster-than-light travel can be used to go back in time, using the same mechanism as tachyons, as originally explained in Albert Einstein’s thought experiment of the tachyonic antitelephone that would use tachyons (subatomic particles that move faster than light speed) to send information back in time. The difference is, you could actually build a spacecraft and it would produce an Alcubierre warp drive around it using exotic matter, in order to achieve physical time travel of ordinary matter back in time, including people inside a spacecraft and whatever else they want to bring along. So while tachyons would only be able to send data back in time, similar to D-Mail or the Time Leap Machine, the Alcubierre warp drive could be used for physical time travel, similar to the FG204.
Practically speaking, however, an Alcubierre warp drive is very hard to build, even if you have exotic matter, and the exotic matter made from a Bose–Einstein condensate is pretty hard to handle. While exotic matter was experimentally proven to exist in 2017 and can be made from the naturally occurring element rubidium, building the Alcubierre warp drive necessary to use it for faster-than-light travel and going back in time is still in the realm of science fiction, not because of it violating any laws of physics, but just because it is so impractical.
The cosmic string theory for time travel was developed by the physicist J. Richard Gott and is explained in the 2002 book How to Build a Time Machine by Paul Davies. In the visual novel, Kurisu Makise explains the cosmic string theory at her conference:
-"A Cosmic String is a string-shaped crack which has an extreme mass. You can think of the crack as something the width of an elementary particle, and at least the length of a galaxy."
-"It has an immense mass, giving it the property of space-time distortion. If you were to travel through that distortion you could make a full rotation around the string in less than 360 degrees."
-"In short, you can do something resembling a warp. This is called Space-time angular deficit. When you pass through an area of angular deficit, transit time becomes zero."

-"Applying this, once the cosmic string moves approaching light speed, according to the theory of relativity, time will flow slower for the cosmic string in relation to its surroundings. Therefore, passing through the area of angular deficit would cause the zero transit time to become negative. In other words, it will be the 'past' after transit. So, if you use two cosmic strings, you can do a space deficit jump. If you revolve back to your original location, you can return to the same time you started revolving. And that, roughly speaking, is time travel by means of cosmic string theory."
-"By the way, so nobody misunderstands, cosmic string theory is different from superstring theory. With that out of the way, you need three things in order to travel to the past with cosmic string theory. First: Cosmic Strings. Two of them are necessary. Ah, by the way, they are hypothesized to exist only where the universe was first formed, so they might be a little hard to find". Second: Even if you do find the strings, you need the energy to make them move at near-light speed. Just how much energy do you think you'd need to accelerate something as long as the milky way to near-light speed? I'm pretty sure it's a little bit more than 1,21 jigowatts''[4]. Third: a space ship able to go all the way to the cosmic strings. The time traveler must be on board. What do you think Hououin-san? Care to take on the challenge of cosmic string theory time travel?"
Quantum gravity theory uses Quantum jumps in the use of a “stale state” or a “dead state” where no movement is possible because of density.
The work of Dr. Lijun Wang at the NEC research institute in Princeton seems to have given us a glimpse of multi-dimensional reality. When Wang recently transmitted a pulse of light towards a chamber filled with specially treated cesium gas, and recorded its travel through the chamber at an accelerated speed of up to 300 times the speed of light, he proved the possibility of time travel.
Before the pulse fully entered the chamber, Wang reported that it appeared at the same instant at a point 60 feet across the laboratory. In effect, it existed in two places at the same time. Thus Wang not only proved that objects can move at speeds exceeding the earlier prescribed limit of 186,000 miles per second, but he proved Einstein's theory that time slows when objects travel at a speed approaching (and exceeding) the speed of light. The implications of this are mind-boggling. Wang's work hints that time travel is quite possible.
Scientists at NEC Corporation's (NEC) basic research unit in the US claim to have proven that light can travel faster than its acknowledged speed in vacuum in a successful experiment in superluminal light propagation.
Despite exceeding the vacuum speed of light, the experiment is not at odds with Einstein's theory of relativity and is explainable by existing physical theory. The research work, which may result in significantly faster information transfer speeds across networks and in computers, was published in Nature by NEC research scientists Dr. Lijun Wang, Dr. Alexander Kuzmich and Dr. Arthur Dogariu.
In the experiment, NEC scientists measured the time taken by a pulse of light to pass through a 6cm-long specially prepared chamber containing cesium gas. The 3-microsecond long pulse of light would normally take only 0.2 nanoseconds to pass through the chamber in a vacuum. But when passed through the specially prepared chamber, light emerged 62 nanoseconds earlier than it would have had it passed through the chamber in a vacuum. This unusual phenomenon is the result of "anomalous dispersion", an effect not seen in nature in transparent materials and is created by the non-natural thermal state of the cesium gas used in the chamber.
A pulse of light consists of many components, each at a different wavelength as can be seen when sunlight passes through a prism in "normal dispersion" and is broken down into its constituent colors. The effect of anomalous dispersion on the wavelengths of the components of light, however, is to modify them. Anomalous dispersion causes components with a shorter wavelength in a vacuum to have a longer wavelength in the chamber and conversely, components with a longer wavelength in a vacuum have a shorter wavelength in the chamber. Unlike with normal dispersion, anomalous dispersion has the extraordinary effect of enabling a light pulse to appear again at a distant point along its direction of propagation and produce the exact shape of the light pulse that entered the chamber. A light pulse can thus traverse the distance between two points faster than its vacuum speed.
"Our experiment shows that the generally held misconception that nothing can move faster than the speed of light, is wrong. Einstein's Theory of Relativity still stands, however, because it is still correct to say that information cannot be transmitted faster than the vacuum speed of light," said Dr. Lijun Wang. "We will continue to study the nature of light and hopefully it will provide us with a better insight about the natural world and further stimulate new thinking towards peaceful applications that will benefit all humanity."
Scientists have seen a pulse of light emerge from a cloud of gas before it even entered. This astonishing and baffling observation was made by researchers from the NEC Research Institute in Princeton, US. They conducted an experiment that involved lasers, a chamber containing cold caesium atoms and a super-fast stopwatch. The end result was a beam of light that moved at 300 times the theoretical limit for the speed of light. It was Einstein who said nothing physical could break this barrier because, among other things, to do so would also mean travelling back in time.
But the NEC scientists believe their work does not violate Einstein's theory. Writing in the journal Nature, Dr Lijun Wang and colleagues say their light beam raced through the atom trap so quickly that the leading edge of the pulse's
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