Interstellar travelling

From EVE RP Wiki
Jump to: navigation, search
Jump default2.jpg

Well, here is a detailed description for all you techno-buffs on jumps—the amazing technology on how and why it is possible to traverse the vastness of space in a matter of minutes. Tacked along are various interesting tidbits on the history of the races and their elusive search for their ancestry. Written by one of the best recognized intellectual in New Eden, this is an insightful glimpse into the minds and beliefs of those that live there.

By Alain E. Topher, YC 105


Where Do We Come From?

For centuries men speculated from where mankind came. Today, it has been established beyond reasonable doubt that all the different races and factions found in our part of the galaxy must have originated from a common source.

Yet it has proven difficult to piece all the different artifacts together into a coherent picture. In any case, it seems logical from a biological standpoint that humans evolved on the same planet. Even if various differences can be found between and within factions, the likeness in the DNA structure clearly points to a common origin. But then the question is: where is this fabled planet that humans evolved on and how did the human race end up in numerous separate places?

Let's look at what we know: It is now undoubted that a race capable of interstellar travel roamed our space many thousands of years ago.

Jump ancient.jpg

A number of ancient jump gates, or fractions of jump gates, are known to exist in numerous solar systems. Whether these jump gates were built by our own ancestors or a totally alien race is unknown. These jump gates have some peculiar traits. First of all, age tests have shown that all these jump gates were built within the space of 50 to 100 years. And yet the design of many of the jump gates is a little bit varied between places, like they were constructed by different people. These facts raise many questions: why were they all constructed within this short timespan, and none since? Were they built by the same race, or maybe two or more conflicting races?

The answer most favored is that of war. Only a conflict could explain this quick construction of dozens of jump gates and why everything seemed to come to an abrupt halt one day. But who was fighting? And where are the combatants now? It seems highly unlikely that factions capable of interstellar warfare suddenly disappeared into thin air.

By studying the layout of the jump gate remnants, a curious pattern emerges. The jump gates snake out like a spiderweb from a central point. And what is the central point? It is the system known to Amarr, who first found it, as 'Imlau Eman', or the 'Mouth of God', but is today better known as New Eden.

The New Eden system is an enigma that is still very much a mystery to us. The system itself is not that impressive—just some space debris and a few asteroid belts orbiting a pale white dwarf. But at the outskirts of the system is a phenomenon that has puzzled us for centuries. At the center of this phenomenon lies a huge structure, obviously built by some advanced civilization eons ago. The structure looks very much like a jump gate, except it is many times bigger than any space structure of ours. The gate is fairly plain all around, but there are markings here and there, in some ancient language that has not been fully decrypted. At the top, the largest of these markings is a three-letter word that says 'EVE'. There isn't full agreement among scholars about the meaning of this word, but most people regard it to be simply the name of the gate.

Now, every indication points to this being the gate that our forefathers used to enter this world, but despite massive studies on the gate and the New Eden system in whole, we still haven't uncovered what happened to the gate all those millennia ago.

Extremely bright and powerful electromagnetic turbulence emits from the EVE Gate, as it is commonly called. This turbulence seems to originate from within the gate, so it is believed that the gate is actually open and the electromagnetic storms are coming through from wherever the gate is linked to.

In any case, the turbulence makes it extremely difficult to study the gate. Fortunately, the storms pulsate rhythmically, meaning that every other year or so they recede enough to allow closer scrutinizing. But even then the turbulence is enough to rip to pieces any vessel foolish enough to wander close to it.

The immense brightness emitting from the gate can easily be seen in solar systems close to New Eden as a vibrating bright star on the night sky. But even in systems in the farthest regions of the known world it can still be seen with the aid of a telescope. The Amarr, whose home system is only a few light-years from New Eden, were in the best position to marvel at the gate. Many thousands of years ago, while still on a primitive level, the Amarr actually coupled the peculiar phenomenon they saw in the sky with their age-old religion and even today the EVE Gate holds great importance in their state religion.

The search for our ancestors goes on. Even if the facts lead us to New Eden system, it seems to be the end of the road. The extensive studies done there over the decades seem no closer to providing the answer to this important question.


The Earliest Jump Gates and the First Interstellar Travelers

Once the Amarr Empire had reached the technology level were it could enter space, it started to vigorously chart their home system. Due to technological limitations this survey took a long time. Finally, the Amarr stumbled upon the remains of a jump gate at the outskirts of their solar system.

By studying the remains, which were more or less intact, the Amarr were able to garner enough information to build a jump gate of their own. The jump gate was operational but obviously it lacked connections to other jump gates, as it was the only one of its kind. Thus the Amarr were forced to physically send ships capable of building jump gates between solar systems before a stable wormhole could be formed into the system to connect the two gates. These gate construction ships often took decades to arrive, the crew suspended in cryo-tanks for the duration of the voyage. Only in recent years with the coming of jump drives capable of jumping between systems with no jump gates in them is it possible to overcome this time-consuming prelude to interstellar traveling via jump gates. Still, today dozens of gate construction ships are en route to a distant system.

But patience is a virtue the Amarr have mastered well and they steadily expanded in every direction from their home system. Now, more than two millennia since the construction of their first jump gate, the Amarr occupy hundreds of solar systems.

Jump sametime.jpg

The Gallente and the Caldari discovered jump gate technology at relatively the same time, due to the simple fact that their homeworlds were then in the same system. This was a little over 700 years ago. The Gallente and the Caldari did not enjoy the luxury of finding a relatively intact jump gate relic in their system as the Amarr did. Instead there were only fragmentary pieces to be found, so they had nothing to build on. Still, these fragments pointed the researchers into the right direction and many jump gate theories were tried out. It wasn't until after the discovery of a companion brown dwarf, making the system a binary system, that the gate research got on the right track. It wasn't long after that before the first working jump gate was erected. The Amarr type of jump gate and the Gallente/Caldari one both work on the same principle (see next chapter), but there are some minuscule differences in how the different parts of the gate work exactly. At that time both the Gallente and the Caldari worlds were bursting at the seams and major effort was made in sending ships to nearby systems to build jump gates.

Jump neverdis.jpg

The mass exodus of the Gallente and the Caldari to other systems was nothing like the calm, deliberate expansion of the Amarr Empire, where only one system was colonized at a time and every aspect of the expansion was rigidly controlled by the state. Instead, private firms, the first of the Caldari corporations among them, were chiefly responsible for surveying systems, sending the constructions ships, and selling the territory to the colonists. In the space of 500 years or so the combined expansion of the Gallente and the Caldari had almost equaled the total expansion of the Amarr in 2,000 years.

The Jove are not very forthcoming with information about their technological advances in this regard. Today they employ jump gates functioning on the same principle as the others, but nothing is known on where or when the Jove acquired their jump gate technology. However, they've revealed an interesting fact: according to ancient Jove legends, the Jove used the ancient jump gates that scatter the world to travel between solar systems a long time ago, before the jump gates crumbled. The legends stay silent about the makers of the gates.


Principles of Jump Gate Technology

Jump gates are built around artificial wormholes, created by exploiting gravitational resonances found in binary systems. This resonance is as a friction between gravitational waves of stellar objects; the more massive the objects, the stronger the resonance between them. Positions of planets in a solar system, as well as the complex structure of dust rings around heavy planets illustrate this resonance.

In binary systems there exist strong resonance phenomenona where the gravitational field of two stars in a stable binary formation would interfere with each other, like ripples from two wave sources.

Jump staple.gif

These stable wave patterns come in a succession of standing wave patterns, similar to those created on a guitar string. The strongest resonance is the 1:1 resonance (the first harmonic, so to speak), with two stationary node points situated in the center of each of the two stars. The second strongest resonance is the 1:2 resonance (the second harmonic), where an additional stationary node point appears in the field exactly mid-way between the stars (if of equal mass), and so on for successive resonances.

At the node points, the rapid oscillation of the gravitational field in opposite directions creates strong shear in the contravariant energy-momentum tensor. Under normal circumstances this stress is dissipated by high-frequency graviton radiation, and does thus not create any noticeable macroscopic phenomena.

But if this stress is confined and forced to build up in a limited region of space, then the tensor-field will eventually develop a steadily growing high-curvature tentacle like structure in the space-time continuum. More specifically, the tentacle constitutes a self-avoiding four-manifold that attempts to grow farther and farther from itself. The tip of the tentacle, where the curvature is highest, effectively acts like a magnet on space-time, and for high enough curvature it can eventually induce the creation of a small tentacle in remote high-density regions, that can reach to the tip and spontaneously combine. An analogy of this phenomenon is when lightning strikes ground, where the tip of the downward lightning actually creates a small upward bolt emanating from the ground and the two combine somewhere above the ground, thus closing the electrical circuit.

The main device of jump gates is a so-called mass boson sphere, based on one of the fundamental physic fields that mediates mass, and thus interacts strongly with gravitational waves. The sphere is filled with mass boson plasma which reflects gravitational waves pretty much in the same way as a mirror reflects light.

Jump teng.gif

By adjusting the plasma density so it reflects the high-frequency gravitational waves involved in the dissipation of tensor shear, this radiation is trapped within the sphere, thus leading to a steady net increase of the gravitational stress within the resonance node, which eventually leads to the creation of the high-curvature tentacle. An analogy of this is the laser, which builds up a highly coherent and intense beam of electromagnetic energy by enclosing oscillators within a reflecting cavity.

The distance between the two ends of the wormhole depends on the mass of the suns in the binary system and on what resonance node the jump gate is located. In order to connect two jump gates a trial-and-error method is needed, often lasting many years. This is because the tentacle created by the tensor-field cannot be controlled or directed in where to open. But by having another jump gate in a nearby system build up gravitational stress on its own (without reaching critical point) at the same time the tentacle is growing, then the likelihood of a connection being made increases statistically. Many attempts are still often needed. This is similar to raising a metal rod in a thunderstorm.

The first jump gate versions built by the Amarr were limited such that once a wormhole had been created and a ship slipped through, a new wormhole had to be made before another ship could pass. As it could take several days or even months to reconnect the two jump gates, passing was slow. Later versions of jump gates allowed the wormhole to be held open for a longer time and modern day jump gates can keep a wormhole connection open for several dozen years before it has to be reset. Also, the first jump gates were only able to connect and hold a single wormhole at a time but today they can hold several wormholes open at the same time, allowing jump gates to be connected to several other jump gates at once.

In an average binary system the jump gate has a range of around five light-years, provided the jump gate is constructed on the third resonance node. More powerful jump gates can be constructed on the second resonance node. Because these nodes are much farther from a solar system (often up to half a light-year away) and, more importantly, are also harder to harness, they have only recently started to be utilized. On the other hand, they have much greater range than the basic jump gates.

There are several strict limitations on jump gate travel. Firstly, jump gates can only be constructed in systems with two or more suns because of the resonance nodes. This effectively makes one in every three systems ineligible for jump gate construction.

Secondly, only one jump gate can be in operation in a system at any given time. This is due to the erratic fluctuations in the resonance fields caused by a mass boson sphere; if more than one such sphere is active at the same time in the same system, they both become highly unstable and impossible to operate.

Jump teng done.gif

And thirdly, ships can only travel through wormholes if both ends of it are connected to a jump gate. This means that ships must travel between systems in normal space in order to build a jump gate. The reason for this is the extreme dilatation of the metric along the longitudinal dimension of the tentacle, meaning that the spatial coordinate along the length of the wormhole is expanded, while the radial component is cyclically curved. A starship entering the wormhole is subject to a strong metric gradient that would put its structural integrity in jeopardy. This can be prevented by locally countering the stretching around the immediate vicinity of the ship. Here the mass boson sphere plays its second role in the gate mechanism. When the ship goes through the mass boson sphere, a mono-atomic layer of mass boson gets deposited on the ship's surface. This layer counters the stretching of the ship against the metric gradient, enough to keep the structural integrity of the ship for the duration of the trip through the hole. This doesn't mean the gradient is completely wiped out, and even seasoned space veterans still know the feeling known as 'going down the drain' when entering a wormhole.


Space Vessels Get A Boost: The First Jump Drives

Even with advanced propulsion systems it took space ships days or weeks to move between planets in a solar system. Anything that could quicken this travel was thus of immense interest for everybody.

Various efforts were made to increase the speed of ships, but most of them failed either because of too high fuel volume and cost, or because they were too limited in scope. The most successful attempt was that of the old Minmatar Empire, which built acceleration gates that employed gravity in an unique way to slingshot ships between planets. This gave the ships enough momentum to fly between planets in a much shorter time than before. But the Minmatar never discovered how to build interstellar jump gates, so their acceleration gates were limited to their home system (where they still exist today). They had begun experimenting with much larger acceleration gates capable of sending ships between solar systems, but they never got a chance to build them due to the Amarr invasion and subsequent Minmatar enslavement.

The Amarr Empire itself was slow to make any breakthroughs in this regard, despite their ever-growing space empire. For a long time they made do with ships traveling at ca. 10% of the speed of light, this speed seemed sufficient to them. At last they discovered the principles behind jump drive technology more or less accidentally, while researching new weapon technologies. The first Amarr jump drive was built nearly 300 years ago.

Jump atlast.jpg

The situation was different for the Gallente and Caldari. Their home planets were in the same system and this meant that intrasystem trade runs became an important element in their society right from the outset of their space activity. Thus there was a much greater incentive to find an acceptable solution to intrasystem travel. The first jump drive built was the Sotiyo-Urbaata Drive, built by Caldari engineers more than 600 years ago. It was immensely big, tremendously expensive and outrageously inefficient, but it worked. The Sotiyo-Urbaata Drive, along with later versions, considerably sped up the social and technological development for both the Gallente and the Caldari and is without a doubt one of the most important discoveries ever made.

Since their first appearance all these long centuries ago, jump drives have become ever more advanced, making them cheaper, more reliable and more efficient. Yet the difference between the Sotiyo-Urbaata Drive and a modern day drive is not so great; both work on the same underlying principle, both allow very fast travel within the solar system. But the latest versions of jump drives are for many the true jump drives, for they allow ships to traverse solar systems even where there are no jump gates. These revolutionary jump drives, which are still relatively rare and expensive, combine traditional jump drive technology with jump gate technology and create a whole new piece of equipment.


Faster-Than-Light-Travel: How?

So what is the elusive answer to FTL travel? It was found through advanced research in the field of quantum electrodynamics. By creating depleted vacuum, that is, vacuum as found in space but completely stripped of all energy, and then expanding this depleted vacuum to envelop a ship, the ship is capable of moving faster than light. A depleted vacuum bubble is more than frictionless; it is so anti-friction that things (including light) actually move faster in it than they would in complete vacuum.

Jump jumpDrive.jpg

All starships are equipped with a jump drive device. The jump drive creates depleted vacuum by repeatedly 'compressing' vacuum between two polar discs, draining all energy neutrons and quarks out of it. A laser-locked field is then created to hold the ever-increasing depleted vacuum bubble until it has enveloped the whole ship. When that happens the ship is able to enter FTL speed. Although initial experiments with the jump drive were very encouraging technology wise, problems arose in regard to navigation. Once the ship has attained FTL speed, it is very difficult for it to act or react to the world, such as for communication or scanning purposes. Numerous experiments were made, for example with compactified dimensions radio, but without success. The unpredictable nature of quantum mechanics made it very difficult to create a stable enough vacuum bubble to allow for precise time measurements due to fluctuating speeds. Finally, a solution was found. It was discovered that gravity capacitors similar to the control system used in jump gates were able to pick up gravity signals from 'normal' space while the ship was at FTL speed. By locking the capacitor onto one of these signals, the ship travels to it. The bubble is then automatically dispersed once certain distance from the gravity well is acquired. The only problem is that these capacitors can only efficiently pick up signals from gravity wells of certain size or above, with the minimum being a small moon or a cluster of asteroids. Also, in order for the gravity capacitor to align correctly on the destination object in relevance to the position of the sun, it must follow a relatively narrow route toward it, resulting in a fairly restricted emerge area for the ship. This puts some limits on the jump drive's usage, but as all major objects in a system can be detected, this is not such a great problem. Furthermore, it is now possible to construct 'fake' gravity wells on space stations and jump gates, which can be detected and thus homed onto by the gravity capacitor that is part of a ship's jump drive.

Further research into jump drives, especially those aimed at amalgamating the technology used for jump drives and the one used for jump gates, has led to more and more advanced jump drives becoming available. It is now possible to fit a ship with a jump drive capable of interstellar travel. The first versions of these allowed the jump drive to connect to a jump gate in another solar system and jump to it just as if the ship had moved through a jump gate. The later versions allow ships to jump from a system with a jump gate to another system that has no jump gate, and the latest version, still only available as a prototype, allows a ship to jump between systems even if no jump gate exists in either system. The first versions of these drives simply aligned the drive with the nearest resonance node in the system (often using nodes 1:4 or even 1:5), then created instant mini-wormholes lasting just enough time for the ship to slip through. More advanced versions, allowing jumps into systems with no jump gates, are a bit more complex. They send out a constant barrage of high frequency neutron rays, based on the flat-space principle of trans-relativistic physics, through infinitesimal cosmic strings to scout out the destination system. This survey can last for several days before enough data is gathered to allow the ship to create a wormhole (through a resonance node of course) to the destination system.


See Also