Culex Implosions

Culex Implosions

04/09/10

Definition: a culex is a theoretical accummulation of matter gathered in what is effectively a zero gravity environment. Upon restoration of normal conditions, an implosion occurs which results in the generation of a big bang. The process of collection is proposed to be by way of a sink which primarily sees an inflow of dark matter.

It would seem that a culex is fairly dense and is rather large, probably substantially bigger than a galaxzy. Once the time frame is normaliezed (i.e., the sink is destroyed or otherwise becomes ineffective), included stars and balck holes then would have a somewhat normal fate. Given the low density of active stars, they would be crushed but would still generate substantial quantities of radiation. Black holes on the other hand would feed locally but as the local boundary conditions become more severe, they would cease to exist.

It seems unlikely that a culex is of regular form (i.e., a sphere) and therefore the implosion would be an irregular process. Indeed, it would seem that local implosions may occur prior to the main event. Since some material would arrive late, one can postulate that the late arriving material is splatter which gives rise to cosmic rays. A more likely concept however is that the end result is just turbulence within the final form of the singularity.

The lumpiness of a culex prior to the time when it becomes homogeneous is of interest. Also the fate of the dark matter is interesting. Earlier (above) it was postulated that there are at least two forms of dark matter; a compact form (and associated with baryonic matter) and expanding dark matter. A folded form was postulated but it is unclear whether this is required for this model.

The time-related transition of matter into a sink is also a curiosity worthy of consideration. A different type of physics is probably involved here. At the time of the restoration of normal conditions (i.e., imposition of gravity), the restoration of a normal time frame may give rise to gravity waves which may affect the culex.

Once again the issue of if/how a sink can be formed is before us. Initially it was postulated that an oscillating surface, a dark shell, was a requisite to the formation of a sink. It is unclear whether this is true or not. There may be another way to form a sink so as to create a culex.

Of interest; does it matter what is initially ingested by the sink/culex? Probably not. Is the culex layered? Not clear. What is the distribution of sinks? Suppose that a sink is not destroyed by the transition of its culex into a normal time frame -- if so, does it then just restart the collection process? If this is the case, then only one sink is needed for long term continuity. Given the apparent size of the overall structure, it is probably the case that there are many sinks (a guess). Is it possible for a sink to merge with/consume another sink? Can two culexes merge?

Is it possible for there to be voids in a culex? Suppose that at the time the overall (very large) structure was formed, there also were a few sinks formed (and that they are durable). If so, then the dark shell theory is not needed. No odds on this.

04/11/10

It was postulated (above) that there might still be two hemispheres of dark matter straddling (one on either side of) the (flat) universe but it would seem more logical that these have long since expanded away.

There is th question of the source material needed for the creation of a culex. Once again the issue of the existence of the dark shell needs attention. In theory there is a great abundance of matter in the dark shell to form many, many culexes. We believe that stars are formed in great clouds of dust. In a like manner, a sink within some portion of the dark shell would be very well supplied with all manner of items, all of which would be suitable (e.g., stars, black holes, dust, dark matter, etc.). If so, then the prior time estimates may be excessively long.

Although the intial inward velocity would be low, with time the closing velocity should approach the speed of light.

05/02/10

The flaking process (described above) arguably could produce a culex (or a series of culexes). In the final stage of the implosion are we dealing with the same composition regardless of the initial composition (i.e., a final form of matter)? Is there a range of sizes for a culex or does the contents produced "ripen" (and then implode)? Is it possible for two culexes to issue fairly close to each other spatially and in time?

Dealing again with the dark shell, is it (roughly) contiguous with the general structure? By definition, the dark shell oscillates -- the general structure however would be (or may be) more a more stable configuration. Can you get an aborted culex (a small one), saying that the process does not quite proceed normally? It would be pleasant to assume that cosmic rays are produced at that "magic" moment of transition between the final stage of collapse of the culex and the beginning of the bvig bang. It would seem that some antecedent basis for this is needed (i.e., the production of a halo of precursory material). Could the process of collapse itself produce the cosmic rays?

05/15/10

So far we have two different theories as to the formation of a culex. One is that a culex is formed by a sink which collects matter for a very long period of time and, due to a severe time warp, the accumulated mass is effectively ceated in an instant (effectively formed in a zero gravity environment). The second is that a flaking process occurs from another dimension in which the fragment has a change of status. In either case it is tempting to assume that the spatial relationship, start to finish, is the same for either concept (for the entire implosion). Is there another formation option? The answer would seem to turn on whether, in the final stages of collapse, there is a final form of matter, even if only at the very end of an implosion. It is to the characteristics of such a final form of matter that attention should be directed. A name for this final form of matter is needed. Perhaps Culite ("kool-ite") would serve. Again we return to the argument that if anything can exist for a short duration then its existence in a steady state form is also possible.

For the third theory, let's look at the phenomenal wave theory -- the concept that a very large wave, under very special conditions, can be generated. Suppose that "flaking" is almost correct as a theory, but that there is a dynamic situation which, like a fluid in motion, can create a singularity (a culex). This basically only a variation on the flaking concept. Let's consider however, an ultimate black hole (see above) which is/may be (by our definition) comprised of culite. Is the culite therein static or in motion? Is there only one form of culite? Do we get compressed culite at the center of an ultimate black hole? Suppose that all black holes (of some minimum size) distort time and space so badly that they are all in communication with each other (in another dimension). Now then, a rare special wave in this dimension might occur (to create a culex). This line of reasoning begs the question as to whether or not these "regular" black holes also contain culite. With this theory, the flaking process from this type of dimension would not directly create a culex but instead would provide a mass of culite (which supposedly would be very unstable). At first blush, it would seem that it should explode. This is just repeating what was said earlier (but in a different way). Essentially you would get a big bang without an implosion. However, suppose that it implodes as it is flaked away. Suppose that the flaking process alters/expands the flake (making it much less dense) that the result is a culex that then implodes. Alternately, suppose that it is a different form/phase of culite. Thus one would start with one phase/form and implode down to a second phase/form.

06/12/10

Back to basics. The initial state for a culex derived from a sink is rather messy, while the configuration for a culex created by flaking or by an unusual wave should be considerably more compact and uniform. In theory, all three versions then would converge (implode) in the same manner. One problem in dealing with the wave creation concept is that it is very difficult to visualize as our frame of reference provides little variety in this regard. Although it is the least understood, it stands the best chance of being correct as it is (inherently) the simplest. As proof will be difficult to come by, the easiest approach is not to worry about which is correct and to just stick for the moment with the sink-generation concept since it is very simple.

07/11/10

Back to the issue of a special wave. Assuming that there is a dark shell that oscillates, it would seem that a fold that moves traversely against itself might be a good candidate for creating a culex directly. What is required is to have/create a large unstable configuration. A (simple or complex) folding mechanism may well satisfy an effective (local) condition for this.

08/30/10

Given the randomness of cosmic rays, one can infer that the general structure (i.e., the over all configuration) is self-contained and finite. This raises the question of whether there are energy fields external to it. A more fundamental question is whether this containing/enveloping region is stable. It seems to be a good time to reconsider the issue of the manner of formation of the general structure.