Programmed Reality

Tachyons, entanglement, cold fusion, dark matter, galactic filaments.  Just when you thought physics couldn't get any stranger...

- THE VERY COLD: Fractional Quantum Hall Effect: When electrons are magnetically confined and cooled to a third of a degree above absolute zero (See more here), they seem to break down into sub-particles that act in synchronization, but with fractional charges, like 1/3, or 3/7.

- THE VERY HIGH PRESSURE: Strange Matter: The standard model of physics includes 6 types of quarks, including the 2 ("up" and "down") that make up ordinary matter.  Matter that consists of "strange" quarks, aka Strange Matter, would be 10 times as heavy as ordinary matter.  Does it exist?  Theoretically, at very high densities, such as the core of neutron stars, such matter may exist.  A 1998 space shuttle experiment seems to have detected some, but repeat experiments have not yielded the same results.

- THE VERY LARGE DIMENSIONAL: Multidimensional Space: String theories say that we live in a 10-dimensional space, mostly because it is the only way to make quantum mechanics and general relativity play nicely together.  That is, until physicist Garrett Lisi came along and showed how it could be done with eight dimensional space and objects called octonions.  String theorists were miffed, mostly because Lisi is not university affiliated and spends most of his time surfing in Hawaii.

- THE VERY HOT: Quark-Gloun Plasma: Heat up matter to 2 trillion degrees and neutrons and protons fall apart into a plasma of quarks called quark-gluon plasma.  In April of 2005, QGP appeared to have been created at the Brookhaven National Laboratory's Relativistic Heavy Ion Collider (RHIC).

My view on all this is that it is scientific business as usual.  100 years ago, we lived in a smaller world; a world described solely by Newtonian Mechanics, our ordinary everyday view of how the world works.  Then, along came relativity and quantum mechanics.  Technological advances in laboratory equipment and optics allowed us to push the limits of speed and validate Relativity, which ultimately showed that Newtonian Mechanics was just an approximation of the larger, more encompassing theory of Relativity at slow speeds.  Similarly we pushed the limits of probing the very small and validated Quantum Mechanics, which showed that Newtonian Mechanics was just an approximation of the larger, more encompassing theory of Quantum Mechanics at large scales.  In the 1960's, we pushed the limits of heat and energy, discovered  and found that our Quantum Mechanical / Relativistic Theory of the world was really just an approximation at low temperatures of a larger theory that had to encompass Quantum Chromodynamics.  Now, we are pushing the limits of temperature, or the slowing down of particles, and discovering that there must be an even larger theory that describes the world, that explains the appearance of fractional charges at extremely low temperatures.  Why does this keep happening and where does it end?

Programmed Reality provides an explanation.  In fact, it actually provides two.  

In one case, the programmers of our reality created a complex set of physical laws that we are slowly discovering.  Imagine a set of concentric spheres, with each successive level outward representing a higher level scientific theory of the world that encompasses faster speeds, higher temperatures, larger scales, colder temperatures, higher energies, etc.  How deep inside the sphere of knowledge are we now?  Don't know, but this is a model that puts it in perspective.  It is a technological solution to the philosophy of Deism.

The second possibility is that as we humans push the limits of each successive sphere of physical laws that were created for us, the programmers put in place a patch that opens up the next shell of discovery, not unlike a game.  I prefer this model, for a number of reasons.  First of all, wouldn't it be a lot more fun and interesting to interact with your creations, rather than start them on their evolutionary path and then pay no further attention?  Furthermore, this theory offers the perfect explanation for all of those scientific experiments that have generated anomalous results that have never been reproducible.  The programmers simply applied the patch before anyone else could reproduce the experiment.

Interestingly, throughout the years, scientists have fooled themselves into thinking that the discovery of everything was right around the corner.  In the mid-20th century, the ultimate goal was the Unified Field Theory.  Now, it is called a TOE, or Theory of Everything.

Let's stop thinking we're about to reach the end of scientific inquiry and call each successive theory a TOM, or Theory of More.

Because the only true TOE is Programmed Reality.  QED.

Tags: physics, programmed reality, cosmology, quantum mechanics, fractional quantum hall effect, strange matter, strangelets, multi-dimensions, string theory, quark-gluon plasma, quarks, qcd, quantum chromodynamics, toe, gut, grand unified theory, unified field theory, entanglement, cold fusion, tachyons, dark matter, galactic filaments
Categories: Cosmology | Future Tech | Particle Physics | Physics | Programmed Reality | Quantum Mechanics | Science

It turns out that it is very likely that an unseen world is occupying the same space that we do.  What goes on there?  Are there Bizarro humans living with Bizarro pets in Bizarro homes, working at Bizarro jobs, just like we do?

Astronomers who have studied the motion of galaxies and clusters of galaxies have noticed that such large astronomical objects rotate too fast for the amount of matter inferred by their size, distance, and luminosity.  Further, in order for the universe to be flat, as it is observed, there must be much more matter than is currently visible.  In fact, by some estimates, observable matter only accounts for less than 1% of the mass of the universe.  The rest, therefore, must be dark – hence the name “dark matter.”  Many varieties of dark matter have been proposed, including exotic dark matter consisting of various high energy loose particles such as neutrinos and theoretical particles called WIMPs (weakly interacting massive particles).  Also in the menu of candidates for dark matter are big chunky masses called MACHOs (massive compact halo objects - don’t astronomers have a great sense of humor?), which include brown dwarfs, planets, or black holes.  Certain studies of the structure of the early universe, however, have demonstrated that MACHOs can not account for more than a fraction of the total dark matter.

As a result, WIMPs are winning the battle.  Anomalous scientific results from Results from ATIC (Advanced Thin Ionization Calorimeter in Antarctica, PAMELA (an Italian space mission called a Payload for AntiMatter Exploration and Light-nuclei Astrophysics), and INTEGRAL (a European Gamma Ray satellite, INTErnational Gamma-Ray Astrophysics Laboratory) ) are starting to narrow down the kinds of particle that could be responsible.  See Kaluza-Klein particles for more (also see New Scientist article).

Interesting, this has some fascinating implications.  The fact that WIMPs don't interact means we don't even know they are there.  Because the measurements imply that they are integrated into our space just like ordinary matter is, they are effectively right next to us and we have no way of detecting them.  

But what form are they in?  Is it a sea of particles?  Or do they clump like ordinary matter?  The answer appears to be the latter.  According to Hubble data, dark matter clumps at all magnitudes (see Science Daily article), which means it looks pretty much like ordinary matter.

What does all this mean?  All indications are that there is tons (figuratively speaking) of invisible, undetectable material existing right in our own space.  In fact, by all accounts, there is about 7 times as much as our common ordinary matter.  For all we know, there are dark desks, dark Volvos, and dark versions of Donald Trump's hair.

 
Tags: dark matter, parallel universes, parallel worlds, wimps, machos, bizarro, cosmology, dark energy
Categories: Cosmology | Particle Physics | Programmed Reality