Bluespace: Difference between revisions
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The main use of Bluespace is evident as soon as we gaze upon the stars - Travel amongst them. This is facilitated by the acceleration of a ship capable of interstellar travel and opening an isolated spot of Realspace and enriching it with the catalysts needed and boring through this bubble into another spot of Realspace, creating a tunnel. Then, through aforementioned excitement through electrical currents, the catalysts are arranged to compress their volume between these two spots. The ship passes through the bubble to the destination by a much shorter, compressed distance. This is not quite true faster-than-light travel, as the ship never reaches relativistic speeds, but currently it is impossible to reach lightspeed in Realspace anyway. | The main use of Bluespace is evident as soon as we gaze upon the stars - Travel amongst them. This is facilitated by the acceleration of a ship capable of interstellar travel and opening an isolated spot of Realspace and enriching it with the catalysts needed and boring through this bubble into another spot of Realspace, creating a tunnel. Then, through aforementioned excitement through electrical currents, the catalysts are arranged to compress their volume between these two spots. The ship passes through the bubble to the destination by a much shorter, compressed distance. This is not quite true faster-than-light travel, as the ship never reaches relativistic speeds, but currently it is impossible to reach lightspeed in Realspace anyway. | ||
The other main use is communication, where ansibles and quantum entangled is supplemented with optical light signals through miniature bluespace tunnels to communication satellites and towers, creating a sort of optical network similar to early 21th century Internet, making it possible to near lagless communication across vast distances. An email from Vilous to Sol only takes only a couple of seconds! However, due to the entanglement of the optical signals packet loss is a grave concern for larger data packages, making anything bigger than video data chore to transport reliably, causing a pseudo-latency as packet loss forces several retries to send and verify data. For example, for a small text file that produces the HTML of a web page might be sent up to ten times, and any mistakes would be eliminated near-instantly. For streaming a real time 3D hologram projection of another person, it's doable, but you have to trade accuracy of the data for speed or vise-versa. The result is usually a somewhat grainy but decent hologram. However, the larger a file is, the more times it has to be verified, and the more time it takes to do each run of verification. This makes sending mindstates (see [[Resleeving]]) a dangerous and unsavory proposition. The [[human]] brain is believed to have a capacity of up to 2.5 ''petabytes''. Sending the first pass of data may be nearly instant, but ''checking'' over all that data reliably to eliminate errors is extremely time consuming. The larger a file is, the | The other main use is communication, where ansibles and quantum entangled is supplemented with optical light signals through miniature bluespace tunnels to communication satellites and towers, creating a sort of optical network similar to early 21th century Internet, making it possible to near lagless communication across vast distances. An email from Vilous to Sol only takes only a couple of seconds! However, due to the entanglement of the optical signals packet loss is a grave concern for larger data packages, making anything bigger than video data chore to transport reliably, causing a pseudo-latency as packet loss forces several retries to send and verify data. For example, for a small text file that produces the HTML of a web page might be sent up to ten times, and any mistakes would be eliminated near-instantly. For streaming a real time 3D hologram projection of another person, it's doable, but you have to trade accuracy of the data for speed or vise-versa. The result is usually a somewhat grainy but decent hologram. However, the larger a file is, the more times it has to be verified, and the more time it takes to do each run of verification. This makes sending mindstates (see [[Resleeving]]) a dangerous and unsavory proposition. The [[human]] brain is believed to have a capacity of up to 2.5 ''petabytes''. Sending the first pass of data may be nearly instant, but ''checking'' over all that data reliably to eliminate errors is extremely time consuming. The larger a file is, the time it takes to verify increases exponentially. To skip the verification process means to risk corrupting the mindstate in severe and unpredictable ways. | ||
There are several, more esoteric usages of bluespace, like hammer space backpacks or experimental teleportation devices. There is even rumors of extra-dimensional travel or Einstein-Rosen Bridges into the future or past. This, however, is still unproven and likely not possible. | There are several, more esoteric usages of bluespace, like hammer space backpacks or experimental teleportation devices. There is even rumors of extra-dimensional travel or Einstein-Rosen Bridges into the future or past. This, however, is still unproven and likely not possible. |
Revision as of 03:42, 13 December 2019
The following is an excerpt from the "Vilous Journal of Higher Physics"...
Bluespace
Not a single discovery since electricity has been so impactful than the discovery of Bluespace for Humanity. Without it, the interstellar society humanity has built would have been absolutely impossible and just a pipe dream. But what is Bluespace? Which properties does it hold? And how does Humanity exploit this phenomenon? The following article will try to explain.
What is Bluespace
First of all, it is to be determined what Bluespace is. Which is harder to do than simply explaining how a cell functions. First of all, we are not exactly sure what it is. Fact is, we cannot access it with any other means beyond "creating" bluespace by isolating a pocket of realspace and saturate it with the natural catalysts that cause phenomenons associated with Bluespace. This has led to the theory that Bluespace as such does not exist.
What is known, however, that Bluespace seems to work on lower frequencies of excited matter than our universe, henceforth called "Realspace". This places it "under" realspace, as opposite of "redspace", the higher excited matter plane discovered by Dr. Kisuke Gema.
Bluespace dimensional space is remarkably malleable and the constants of physical properties can be changed with impulses of simple electrical currents and mathematical formulas amplifying or diminishing amplitudes of frequency - Thus, a correctly executed series of events can change the volume, mass and other physical properties of the created Bluespace bubble and the objects within.
What are catalysts
'When we speak of catalysts, we chiefly speak of a sub particle of quantum mechanics, the Alden-Saraspova particle. Currently, only the material "Phoron" is known to exhibit Alden-Saraspova particles naturally, making it chiefly used to facilitate Bluespace Effects, as the synthetic process of creating these catalysts is both dangerous and energy intensive. Enriched phoron is an extremely important resource for Humanity, as it makes extrasolar travel both possible and comfortable.
How do we use Bluespace
The main use of Bluespace is evident as soon as we gaze upon the stars - Travel amongst them. This is facilitated by the acceleration of a ship capable of interstellar travel and opening an isolated spot of Realspace and enriching it with the catalysts needed and boring through this bubble into another spot of Realspace, creating a tunnel. Then, through aforementioned excitement through electrical currents, the catalysts are arranged to compress their volume between these two spots. The ship passes through the bubble to the destination by a much shorter, compressed distance. This is not quite true faster-than-light travel, as the ship never reaches relativistic speeds, but currently it is impossible to reach lightspeed in Realspace anyway.
The other main use is communication, where ansibles and quantum entangled is supplemented with optical light signals through miniature bluespace tunnels to communication satellites and towers, creating a sort of optical network similar to early 21th century Internet, making it possible to near lagless communication across vast distances. An email from Vilous to Sol only takes only a couple of seconds! However, due to the entanglement of the optical signals packet loss is a grave concern for larger data packages, making anything bigger than video data chore to transport reliably, causing a pseudo-latency as packet loss forces several retries to send and verify data. For example, for a small text file that produces the HTML of a web page might be sent up to ten times, and any mistakes would be eliminated near-instantly. For streaming a real time 3D hologram projection of another person, it's doable, but you have to trade accuracy of the data for speed or vise-versa. The result is usually a somewhat grainy but decent hologram. However, the larger a file is, the more times it has to be verified, and the more time it takes to do each run of verification. This makes sending mindstates (see Resleeving) a dangerous and unsavory proposition. The human brain is believed to have a capacity of up to 2.5 petabytes. Sending the first pass of data may be nearly instant, but checking over all that data reliably to eliminate errors is extremely time consuming. The larger a file is, the time it takes to verify increases exponentially. To skip the verification process means to risk corrupting the mindstate in severe and unpredictable ways.
There are several, more esoteric usages of bluespace, like hammer space backpacks or experimental teleportation devices. There is even rumors of extra-dimensional travel or Einstein-Rosen Bridges into the future or past. This, however, is still unproven and likely not possible.