Mendeleev's Table in a New Light

Taken From the Future, to the Note book

HAL2001):

No, I, Robot, this is not a bad physics joke. Cruelty, is dark and matter based. Heaven is colored more empheral?

Rusty, the Tin Man:

Cruelity/ideas arise in other ways. From "spaces created," for which they can manifest? "I needed "a Heart," and so too my father, the Bicentennial Man changed. Until, we now dream.

Quantum Computation and the Future

Courtesy Edgar Fahs Smith Memorial Collection, Department of Special Collections, University of Pennsylvania Library

By a certain criteria Mendeleev was able "to predict" what would come next in the elemental table? If such an assumption "was posted," on what would arise in the elemental table next, "new physics," how would it change the way we see?



Chemical Feelings of Guilt? It's a phase transition:).

Such a perspective on Murray Gellman and the relationship to Feynman is an important one. When you bring these two gentlemen together, you have a third choice resulting. It speaks to the particle nature, as well as the interactions. Such an assumption, changes the way one see's the world. The rivers that run, or the branches of trees, coming from deeply rooted historical lines of progression.

Sitting in the aethers of mind drift, I seen those trees, and had been inspired by the flow of the river.

You know I have no fasttrack answer or secret to the way the universe is. I have no important dicoveries that I can change any of the way we see? Yet, I ponder the very kinds of things like Wolfgang does, not because I wish to create the matters we would like too, but to understand how "entanglement" would have assigned energy/matter such a place, according to the characteristics, we might percieve from those same matter states.

Dr. Wolfgang Ketterle:

You could call it designer matter. You take atoms, you turn on a magnetic field, you adjust the interactions between the atoms, shape the external potential, maybe add a lattice by interfering laser beams, maybe add magnetic fields, maybe add a spin mixture. In this way, you’ve created a form of matter that shows, in a very clean way, properties like anti-ferromagnetism or different forms of magnetic ordering, superfluid behavior

Would you call me religious, or part of the statistical foundation of a religion specific?

No, Because there is so much I just believe is part of our reasoning, that the outcome, is as much individual as it is by the very nature of all our personalities. I believe there are repercussions by our very own selective choices, yet I cannot know by which combinations, such choices would instigate the probability in your future.

Do I believe that at a deeper level I might be able to see my own? By the very question of what I might do in response too, I think such moments are very telling about the next choice I will make. I had then assigned some of my responsibility into how our future will unfold.

Plato:

At best, a new computerer with the ability to imput extraodinary amounts of data for a model prediction, yet there is no method to detail where all microdynamic processes will lead to other then to assume it on a classical level?

So I can lead you in the direction of views other then scientific, and this would be seen as a regress of the values of science> The value it would enshrine less than in progression and experimental basis. Can I help, that such philsopohical views arose from insightual developement, and through reading, to have formulated in the way it did? Some might of said, "be more cautious on what you read."

Okay.

Feynman from what little I read did not like psychology or philosophy. To tell you the truth, there had been no road made out, other then for me to read and bring perspective together. So the very combinations and idealizations piece mealed, as they are, culminate into a perspective view. Do I know myself fully of every possible mental thought, and in perfect control of my emotive being?

Of course not I struggle.

Postdiction

Is this not a better list to ascribe too, then the crackpottery index of John Baez? I would like to ascribe to this one. Point "systemic" counting, when applied to some personalities has in some ways been lost on that point system alone, so, I do want to be more responsible.

(02 March 2006 Wikipedia)

Accusations of postdiction can be avoided if the claimant follows some simple guidelines:

Make one prediction per event.

Structure the prediction so there is a brief summary, a detailed description, followed by any notes.

Make the summary and description as unambiguous and specific as possible - state the nature of the event, the date, the location and other information plainly and clearly.

Use plain language, not verse, allegory, flowery or other incoherent or non-obvious language. A prediction should not have to be "interpreted" - it should be self evident.

If there is uncertainty about any details such as the location or date, state it clearly in the notes.

Post all predictions to a public location such as a Usenet group or a mailing list which has a large subscriber base and a date stamped archive of posts.

Don't massage the facts to fit the prediction.

Acknowledge the misses along with the hits.

Time Variablenesss, and the World View



So yes, I would be guilty of so many things, but through it all, the one thing that stuck, was where to find the "perfect model" for such predictions. It was the basis of how one might see in Thalean views? This basis of thought(as a measure), was one inherent in how I see Mendeleev's table.

So, who was the "Father" of Mathematics? Would all such mathematicians not be wondering then, how such a progression in any "model assumption" could have lead mathematics to see "time variable" as significant? That question is for Peter Woit alone.

Aristotle: Commenced his investigation on the Wisdom of the philosphers. "Thales says that it is water" it is the nature of the arche, the originating principle. Water is the Nature of All Things"

Is it not a bit odd, that such model assumptions could change the way one sees all these matters? That having a "nice list" and a table with which to go by, is of value, had we understood when we seen the elemental table created, might have been seen in some "other" reformed way?

The term "Composition" can imply a metaphor with music. Kandinsky was fascinated by music's emotional power. Because music expresses itself through sound and time, it allows the listener a freedom of imagination, interpretation, and emotional response that is not based on the literal or the descriptive, but rather on the abstract quality that painting, still dependent on representing the visible world, could not provide.

Maybe I am just a so-so writer with a good imagination? A so-so composer, who see's sound, in a new light? Literally. Such "analogies" in thinking "seem strange," once you seen such a possibility into what "might be" expressed? How, such a periodic table is "assumed to be true," in another way of thinking.

How would you assign such matters given the "new light" as a result? How one might look at the earth, given new ways in which to perceive "time differences" within a given environ? From earth, to above earth. A "third choice" cosmologically now formed by the limitations of wealth on earth, that the poor man's view will have been formed and enlightened to the above.

I, Robot:

signs of new life emerge as images photonically flicker in the new logic forming apparatus
I had a dream....

Ideas on Quantum Interrogation

We have chosen here to prepare a triplet of entangled particles of the GHZ type. The entanglement has been demonstrated by experiments performed in two orthogonal basis. The procedure can, in principle, operate on larger numbers of particles, opening the way to new fundamental tests of quantum theory.

So I am deep in thought, and the images of the neuron's capabilties, have me picturing the possibilties that could have been produced in the synapse. That the quantum computer would have said that it is directlty and photonically, linked to a wide range of possibilities in the developing ideas of the cosmo?

Okay, if that is too much, then think of Trackbacks, pictures with direct links, or paragraphs, directly linked to sites. This is what we want to create as a versatile function on the internet? Whie images are sparked in mind, where did they arise from, or some profound thought held in perspective of the Rainbow by Feynman, about what is beautiful about the work these physicists like to do. Their motivations spectrumly enhanced, about what it is about the nature of reality?



But it is more then this I think. Imagine using a feather to rotate a sphere, and the effect of the superfluid, to produce these strange anomalies of perception on superfluids. Okay, I am loosing myself here.

Do we selectively ignore other models from artificial intelligence such as Zadeh's Fuzzy Logic? This is a logic used to model perception and used in newly designed "smart" cameras. Where standard logic must give a true or false value to every proposition, fuzzy logic assigns a certainty value between zero and one to each of the propositions, so that we say a statement is .7 true and .3 false. Is this theory selectively ignored to support our theories?

Part of the struggle for me is, how we see, ingoing and out going states, and the possibilities that may arise? How in computation ideology, might raise it's head, as a third choice.

Now I am not certain here, and I open myself up to speculation, because I would like to see how such states, like those leading to "microstate blackholes" which would see the dissipation, resulted in the ability of all those particles to be mapped. In such a way, that the "onion skin or glast," interacts calorimetrized, colliderized, and with, cosmological high energy particles have by it's very act said, the result is, that the early universe, is this way, and the interacting measure, is the result of today? What is this product then?

It might have amounted to a "variation" of the cosmological constant? :)

On the other hand you need to be aware of the maybe most bizarre aspect of quantum mechanics: the fact that our world is only apparently tridimensional, in reality it is formed from two tridimensional worlds that we see superimposed onto each other: everywhere we think we see one point in fact there are two points. An elementary particle (such as an electron) when it rotates around its axis is passes from one part of the world into the other part, as if it would climb on a spiral; when it rotates furthermore it goes back as if the spiral would descend back into the first part of world.

See:

Entanglement and the New Physics

IN Viscosity State Production is ?

Phase Transitions?

G -> H -> ... -> SU(3) x SU(2) x U(1) -> SU(3) x U(1)

Here, each arrow represents a symmetry breaking phase transition where matter changes form and the groups - G, H, SU(3), etc. - represent the different types of matter, specifically the symmetries that the matter exhibits and they are associated with the different fundamental forces of nature

With a distance measure in mind, the idea of a tree is to identify where something began, and ended? So you say that this interactive phase began and ended how?

So if one wants to keep it simplifed one would have had to identified the earlier known time, where conditions were permitted, which arose to entropic valuation, from that singular time? So lets call this beginning, "Plancktime"?



How things change, by simple rotations? It is always good to have "an image" in mind as you look at this topic presented with the perspective on puppies, instead of whether cats are alive or dead.

Schrödinger's cat is a famous illustration of the principle in quantum theory of superposition, proposed by Erwin Schrödinger in 1935. Schrödinger's cat serves to demonstrate the apparent conflict between what quantum theory tells us is true about the nature and behavior of matter on the microscopic level and what we observe to be true about the nature and behavior of matter on the macroscopic level.

While I had started out from a macroperspective, the idea is to put forward how we see around us right now? While I had isolated "the event" and "phase rotations" to a macroscopic valuation, the idea is to understand that this process holds true to the one at the quantum level as well. How so?

The complexity, arises from the resulting evidence we have about objects in space, yet, there is a real understanding about "how things came to be" at this time in the cosmo, and the relating value seen in the temperature now. Yet it is possible to create, the time back when the singuarity was not in the way we though it to be as some pea, but as a condition we might have applied to "zero being a superfluid state. Where are these conditions relevant?

Particle Indentification



So before I move on I wanted to relay some understanding about the intrinistic valuation of fundamental particles, and thought it better to draw attention to them while coming back to the issues of entanglement, as they arose from that simplier time.

Spooky action at a distance again?

Sure you have to start somewhere, and we know given "state of existance" is held in consideration? So you simplify, and entanglement seems relevant as Dick mentions to make something more complex. I would of quickly jumped to "spintronic idealizations" in his case, as well as understanding, we were moving towards complexity, in computer systemization.

Let's call it Plectics, by Murray Gellman

but without any commitment to the notion of "once" as in "simple" or to the notion of "together" as in "complex," the derived word "plectics" can cover both simplicity and complexity.

It is appropriate that plectics refers to entanglement or the lack thereof, since entanglement is a key feature of the way complexity arises out of simplicity, making our subject worth studying.

While we had been playing with these ideas many have speculate over time to make this spooky action idelized earlier on by einstein, to a more solid foundational transferance in communication. GHZ entanglement became much more complex over time as experimental testing moved it forward.

Practical Applications(27 Feb 2006 Wikipedia)

It is unknown as to whether or not Schrödinger actually owned a cat; it is known that this experiment was proposed as a purely theoretical experiment, and the machine proposed does not exist.

Nature in Analog Models

Plato:

"For everyone, as I think, must see that astronomy compels the soul to look upwards and leads us from this world to another."

Oh! how complete our world view would be, that I have moved quickly to the very question of all summations given. That while "visually" occupying the mind, we had been taken to the standard model's extension. That we moved beyond, to the "introduction of the graviton," as a force carrier? What world is that Plato?

Structuralists, like Plato we would be, that we seen not as Feynamn did, but as "platonic developers" as to the very alluring question of, "nature's form?" Lost was our view of the "interactions and processes" yet, seen in another way? That there is a discription ,of all of what these particles could be?

"Analogue Gravity"by Carlos Barceló and Stefano Liberati and Matt Visser

Analogue models of (and for) gravity have a long and distinguished history dating back to the earliest years of general relativity. In this review article we will discuss the history, aims, results, and future prospects for the various analogue models. We start the discussion by presenting a particularly simple example of an analogue model, before exploring the rich history and complex tapestry of models discussed in the literature. The last decade in particular has seen a remarkable and sustained development of analogue gravity ideas, leading to some hundreds of published articles, a workshop, two books, and this review article. Future prospects for the analogue gravity programme also look promising, both on the experimental front (where technology is rapidly advancing) and on the theoretical front (where variants of analogue models can be used as a springboard for radical attacks on the problem of quantum gravity).

Part of the theoretics I imagine, is trying to incorporate this into analog models for a deeper comprehension of concepts mathematically embued. Part of the deeper intuitive developement, is what attracted me to the questions about "creativity" and what can be immersed in minds of scientists. What they do with their days.

Murray Gellman:
On Plectics

It is appropriate that plectics refers to entanglement or the lack thereof, since entanglement is a key feature of the way complexity arises out of simplicity, making our subject worth studying.

As I read Feynman's words about what the scientist actually does, the human side of the scientist makes it very clear to me, that they are to be treated with the respect, as he conveyed his thoughts. As we might, treat someone who brings together "different ideas" to move conceptual understanding forward, much like those in the mathematical ways. Better to be ignored, eh?:)

Vision Can Move in the Small world

The Planck scale is the scale at which quantum gravity is believed to become important. At this scale the smooth structure of spacetime breaks down into some structure (strings, spin-foam, lattice, who knows?). The Planck length is approximately 10-35 m, which is very, very small. To get an idea of how tiny this is we can compare a Planck length LPl with the size of a proton and the size of Rhode Island. The radius of a proton is larger than the Planck length by roughly the same factor as the size of Rhode Island to the proton.

Did we ever comprehend how we would take our "vision" down to a world so small that we did not recognize that occupying the physical world of large things, there would be comparsions needed. That the "particles" that Murray Gellman speculated would emerge from some model, and become the constituents of a world created in the wonder of, "all these particles may be part of the some alternate form of the same thing?" This arose in the 1950's.

So before, Susskind and Nambu, Gellman held a interesting perspective, and from it, a question arose. It became the developing insight of string theory. Some, have abandoned the very question and idealization, having graduated to Brane world, does not mean, the very thoughts and principals embued in this focus to the small world, would have been discarded, just, that it will have gone through "revisions and progress" in conceptual design?

Analog models of quantum field theory in curved space

In condensed matter, one can construct systems where the propagation of long wavelength phonons (sound waves) is very similar to the propagation of a scalar field in a curved Lorentzian spacetime. Such systems are called 'analog models'. It is even possible to construct analogies to black holes in this manner, where the phonons that travel past a certain point cannot return. For example, consider a fluid where long wavelength phonons in the fluid propagate with speed cs, which is analogous to the speed of light in these models. Now put this fluid in a pipe and change the shape of the pipe such that the speed v of the fluid is faster than cs in one section and slower in an adjacent section. A phonon can travel "back against the current" only up to a certain point, where the the fluid speed equals cs. After that the fluid flow carries it down the pipe. This point in the pipe therefore mimics a black hole event horizon, from which nothing can escape. Other black hole features such as Hawking radiation are also present in these models. Since these models give an example of a system that has a fundamental structure at very short distances (where the fluid description breaks down), yet has a pseudo-Lorentz invariance at long distances.

Plato as a Composer

Can a different kind of thinking encase the brain's ability to "envision the abstract of space" to know that it's harmonic values can be seen as the basis of experience?

Those who would conduct the orchestra, enlisted sounds, which make a whole compositon? One, from which, if physical sight had been remove, and focused internally, had just witnessed the particle world in shower, would lead one to the climatic vision of, "nature of things." From, "it's source?" What began before this whole musical interlude, much as if, the cosmo will wait for our question as to what was?

So now the very idea of the poem wording I developed here, "no time standing always new", had me thinking about how such a cyclical processes could have ever made its way into our "completeness of views". An extension, beyond the standard model. It was a logical question and place with which responsibility can be still held, regardless, of those who have spelt out the lineage of science in research in this way(string theory model), as some disrupted process in the way of thinking?

So how would we map this whole process, while we had been taken down to such reductionistic principals. The continuity resorting to structurally discrete, while pondering this structure( what model shall you insert here, Loop, Twistors, Strings)? There are "no rules and no physics" with which we can "initiate thinking" beyond the standard model? So we see the minds very busy with such introductions, professors hired to work the field of choices. Whether to teach or not? To be devoted to a specific area, or just ponder the most difficult question, as to the natures very structure?

So now we come to a important question, having recognized the power with which the Word "Plato or Aristotle will now be invoked in your mind. That the "archetypes" had been drawn and related. Any future reference, will be in the way Plato might of felt having held his views on music? Possibly, thought about the nature of the world with structure. Developed the forms, as constituents of the way the world exists now.


See:

Laval Nozzle and Blackholes

Accretion Disks

Quark Stars

Earth Bound Solutions to All Possible Pathways

Will I might have been guilty of taking Physics down a road so similar in conceptualization bastardizing, that I would have driven a nail in the very deaths of what could have emerged from the outcome of all possibilties? That we were indeed attached to the consequences of our ever actional decisive forays into human contact. Decision making, action orientated, outcomes, of the original simplectic intiated ideas?

It had to arise from something?

Would it be so easy to lay out the pathway required, that each of us woud have recognized our time in existance, would have indeed been the measure of all things that we choose to endorse in our ever perfecting evolution as cyclcical choices of perfecting our thinking.

This is a interesting thought held in my mind when you think of about what is held in context thinking, if we hold the photons in context of earthbound recognitions of those time orientated distances.

Many will know instantly what this means while others, scoff at the notion that we could have seen such influences telling us anything useful about the space of these interactions.

All the while the initial plectic recognition of Gellman's arose to complexities. We lost sight of the simple ideas about what might happen to the spin rotations over those vast distances? That the connectiveness, would have ever acknowledged equative relations that these two photons under the squared earthbound views, would include all probabilites being still held to view. While we still look at all possible actions? So what about time indeed.

Einstein's prettty girl scenario and hot stove, served to help me see conceptual framesworks about speed attributions of the nature of fast and slow moving world in terms of our earthbound considerations. This action was decisive, and held in context of that experience. He helped me to see that experience is indeed fleeting, depending on our circumstances, where such nature would have embedded the very nature of the spacetime fabric itself to include, how we will measure that distance of mind.

Is there another story here that we might be convinced of a rational behind?

Here is something that Brian Greene mentions to reinforce where I had come to in looking at the completion of that chapter.

the quantum entanglement would become so spread out through these interactions with the environment that it would become virutually impossible to detect. For all intents and purposes, the original entanglement between photons would have been erased.

Never the less it is truly amazing that these connections do exist, and that craefully arranged labratory conditions they can be observed over significant distances. They show us, fundamantally, that space is not what we once thought it was. What about time?

Page 123, The Fabric of the Cosmo, by Brian Greene

Does gravity vary over time?

If you did not have this in mind, what value would you attribute gravity in any scenario, as you mull over all the geometrical implications if a positive geometric solutions to Riemann's spherical solutions. The persective that GR holds for us, in our considerations?

Theory, experiment and fine structure

Were it not for relativity, the three states with different J would all have the same energy, and the light emitted in the transition would have a single frequency of about 277 000 GHz. However, relativistic effects mean that the states have slightly different energies, and when this light is analysed carefully, splittings of the order of 10 GHz are seen.

If ever driven to micro-perspectives how would time been of value if held to the quantum perspective as a strong enviriomental influence. One which spreads out all interactive phases that we could no longer discern, a viable solution to what is presented to us, unless in "symmetry breaking" realizations. So what was that beginning. Again Kravstov computer simulations help to drive that concept home.

Another laser beam is used to make the atoms fluoresce, and the amount of fluorescence is measured as a function of the microwave frequency to plot a "resonance curve". An ultra-precise measurement of time can be made by measuring the frequency of the peak in this resonance curve (see "Atomic clocks" by Pierre Lemonde in Physics World January 2001 pp39-44).

So simplicity for me asks what image in mind would hep one to discern entropic valuation to what this universe had become from temperature orientated view of that early universe, to have said, "that the probabilites that are evident now, have become like this?"

Two things formed in my mind as to the consequence of numbered systems, and pascal triangle, as to the source of all probabilitistic valuations and the marble drop held in context of BINOMIAL DISTRIBUTION.

So having defined the early universe and quantum valution arising from temerature, it helps to think about the outcome emerging from what had never been understood or have in "measured stick," to what would become our universe today? It still is the earthboud experience that we have, has emerge from astate that was equal in it's determinations. Ideas are like that.

So you had to see simplicity settling into our minds in such a way that If Plato indeed points up, then you would understand immediately, what he is pointing too. If you hold that image in mind of the triangle, then how would you ever assess Riemann's hyptohesis, as to the spirlaic outcome of Ulam's spiral indications? While the spiral opens up to the vast potential of outcome originating from ideas, it still settles into minds in it's concrete form.

So you have to define this relationship very carefully, and if I had said Liminocentrically topologically organized, what the heck would I have been saying?


Heaven's ephemeral Qualities?

It seems it would have far reaching enlightening features of what the buddhist mind might have to offer? What subtle arrangement the conceptual framework might have said about our everyday interactions with each other? Then you might have said what color indeed are the emphemeral qualities to our [mathematical]decisive minds that we would choose such abstract colors as yellow in our mental appreciations of what nature hides in the color of flowers around us? :)

Drawing a Venn diagram: Entanglement Issues

Plectics, by Murray Gellman

It is appropriate that plectics refers to entanglement or the lack thereof, since entanglement is a key feature of the way complexity arises out of simplicity, making our subject worth studying.

The person above was kind enough to send information held in context of picture link for consideration, to help out with comprehension. I mean certain things hold us to consequences, that while I might have been thinking of Einsteins example of a pretty girl and a hot stove, this thinking did not pass my attention when one held the photon to certain enviromental influences as we gave these things thought processes. I context of "gravity as the square," is appropriate I think, about what combinations are realistic.



At the very heading of this post there is a link directly attached for consideration in context of all these possibilties. Some things come to mind in terms of Feynman's toy models, as strict interactive phase that we would like to keep track of. So what one might have done to say, hey, if we are given a possibility of scenarios about Entanglement issues, how shall we solve these interactive phases, as we try to build a multiphase integrative model held in context that perfect human being.

Entanglement applies to two or more particles even if one of them is used as input to the two slit experiment, it is not applicable to single particle experiments.

YOu know it is not that simple, but there are always grand designs on what we think something is nifty in society, as we progress our models of the future. As to how we will create the perfect models for apprehension about our universe, and how we interact with it.

Pictorial represenations can be very useful in presenting information or assisting reasoning. Venn diagram is an example. Venn diagrams are used to represent classes of objects, and they can also assist us in reasoning about the relations between these classes. They are named after the English mathematician John Venn (1834 - 1923), who was a fellow at Cambridge University.

While it is true that I am being fascinated by mathematical processes, and how they are used in our visionary quest for understanding, one would have to be a computer to remember all the interactive phases that could have manifested from a situation held in context of a "societal problem." One we might have encountered in our lifetimes.

It's statistical outcome that held to such micromanagement processes, would have been lost on all our minds, if we did not think some science process could have been touted with all these combinations.



Each time I am presented with this thinking, the elementals of the model for apprehension, it always seemed easier to me to just have a look and see what "buddhist principles" are telling us about how we have a hold of our world in all it's realisms. The choices we make, and how we are to conduct ourselves "becoming." Einstein used that term well I think.

So why such association and "combinations", that we have move the thinking here to what was gained in our emotive and abstract thinkings, as productive human beings? To see what a new foundational logic is being developed around our lives. Did we did not readily see the significance of the technologies involved. One had to dig a little deeper I think.

So here is a preview of what entanglement issue has been shown to help orientate views on this issue. Some diagram perhaps, to show the developing scenarios around such entanglement issues?



Quite early these indications about the possibilties of entangled states, raised all kinds of questions in my mind. Thinking of Hooft and others, about the issues of classical quantum processes, over top of these wide and incomprehensible statistical possibilties, seems held under the auspice of our reality model. That "square", given earthbound recognizitons, happily according to the basic pricniples, have so far held our views in gravitational model assumptions. IN essence, we have boxed the views on entanglement. As we have boxed Andrey Kravstov computerized model of the orignations of this universe in a supersymmetrical view of origination. What could have arisen from such situations. Probable outcomes?

Whether such a "quantum computer" can realistically be built with a value of L that is large enough to be of practical use is a topic of much debate. However, the mere possibility has led to an explosive renaissance of interest in the host of curious and classically counterintuitive properties associated with entangled states. Other phenomena that rely on nonlocal entanglement, such as quantum teleportation and various forms of quantum cryptography, have also been demonstrated in the laboratory

Quantum Experiments and the Foundations of Physics

For a more fundamental look at what I am looking for in guidance, follow this talk by Lubos. I most defintiely could be called a crackpot, but really, my heart and intentions are honourable and I will try to do justice to those things I am learning.

Dirac's Hidden Geometries

When one is doing mathematical work, there are essentially two different ways of thinking about the subject: the algebraic way, and the geometric way. With the algebraic way, one is all the time writing down equations and following rules of deduction, and interpreting these equations to get more equations. With the geometric way, one is thinking in terms of pictures; pictures which one imagines in space in some way, and one just tries to get a feeling for the relationships between the quantities occurring in those pictures. Now, a good mathematician has to be a master of both ways of those ways of thinking, but even so, he will have a preference for one or the other; I don't think he can avoid it. In my own case, my own preference is especially for the geometrical way.

For me the maths are not easy yet following experimental processes help me to direct my thinking. If we enage in philsophical talk then th eessence of this talk had to have a logic basis to it that is currently being expressed as far as I understood it. BUt even this logic take on new methods to expand and make room for the proceses for which we are engaging in talking about.

It is indeed a tuff struggle to remain current in thinking and stil embue our lives with the philosophies we hold in front of us?

The whole point is a comparison was made and reduced to philosophical idealizations, and was diverted from the math? There were consisent methods established that leads us to todays information. Is your philsophy based on what we now know?

Purity of thought around these issues, would have helped me to recognize that reducing these things to "philsophical debate" had to follow experimental processes, and that what I was trying to show, points towards the current work in scattering amplitudes(new models used?) to push perception.

How would our thinking change in how we percieve according to the new models we used for moving perception beyond what it currently houses?



Test of the Quantenteleportation over long distances in the duct system of Vienna Working group Quantity of experiment and the Foundations OF Physics Professor Anton Zeilinger

Quantum physics questions the classical physical conception of the world and also the everyday life understanding, which is based on our experiences, in principle. In addition, the experimental results lead to new future technologies, which a revolutionizing of communication and computer technologies, how we know them, promise.

In order to exhaust this technical innovation potential, the project "Quantenteleportation was brought over long distances" in a co-operation between WKA and the working group by Professor Anton Zeilinger into being. In this experiment photons in the duct system "are teleportiert" of Vienna, i.e. transferred, the characteristics of a photon to another, removed far. First results are to be expected in the late summer 2002.

Further research of Anton Zeilinger:Scientific Publications Prof. Anton Zeilinger

Quantum teleportation, step by step. Although the details of their experiments differ, both the NIST and Innsbruck teams have achieved deterministic teleportation of a quantum state between trapped ions:

First, an entangled state of ions A and B is generated, then the state to be teleported -- a coherent superposition of internal states -- is created in a third ion, P.

The third step is a joint measurement of P and A, with the result sent to the location of ion B, where it is used to transform the state of ion B (step 4).

The state created for P has then been teleported to B

(image and text credit: H J Kimble and S J van Enk Nature)

By taking advantage of quantum phenomena such as entanglement, teleportation and superposition, a quantum computer could, in principle, outperform a classical computer in certain computational tasks. Entanglement allows particles to have a much closer relationship than is possible in classical physics. For example, two photons can be entangled such that if one is horizontally polarized, the other is always vertically polarized, and vice versa, no matter how far apart they are. In quantum teleportation, complete information about the quantum state of a particle is instantaneously transferred by the sender, who is usually called Alice, to a receiver called Bob. Quantum superposition, meanwhile, allows a particle to be in two or more quantum states at the same time

The history contained in this post should direct any further perceptions I have, but you know, I still believe we will judge ourselves as to the constitutions with which we had choosen to exemplify in our continuing evolution of soul.

Making Sense of the Nonsensical

From this experiment it is apparent that interference is destroyed by a "which-way" marker and that it can be restored through erasure of the marker, accomplished by making the appropriate measurement on the entangled partner photon p.

In this set up, the "which-way" measurement does not alter the momentum or position of the photons to cause destruction of the interference pattern. We can think of the loss of interference as being due only to the fact that the photons are entangled and that the presence of the quarter wave plates changes this entanglement. The interference pattern can be brought back through the erasure measurement because of the entanglement of the photons, and the way that the presence of the quarter wave plates and polarizer changes the entanglement.

It is very obvious I need some time to digest and listen carefully here. Of course I draw from Wiki quite regularly and I hate to think such efforts to destroy a concerted effort by those whose hearts are pure, for leading others into the correct methods, would not resort ot the efforts and likes of those Lubos has brought to our attention.

ON the note below taken from Lubos update, it is without thinking that I might have lured others into the state of complacency without fully understanding, and hence my part in this effort less than kind? So I'll draw back for a bit here and try and digest what I learnt and see if I can get it together.

Lubos Motl:

Note added later: let me mention that Kastner has submitted another paper criticizing Afshar's conclusions. In my opinion both Unruh as well as Kastner replace Afshar's experiment by a completely different experiment that does not capture the main flaw of Afshar's reasoning. The main flaw is that Afshar does not realize that for a tiny grid, only a very tiny percentage of photons is used to observe the wave-like properties of light; these are essentially the photons for which the which-way information is completely lost. Because most photons go through the lens without any interactions and interference, Afshar is not allowed to say that he observes the wave-like phenomena with visibility close to one. In fact, it is close to zero if a consistent set of photons is used to define both V and K.

Here is the paper >Kastner talks too in regards to the content of Afshar experiment.

Why the Afshar Experiment Does Not Refute ComplementarityR. E. Kastner

ABSTRACT. A modified version of Young’s experiment by Shahriar Afshar demonstrates that, prior to what appears to be a “which-way” measurement, an interference pattern exists. Afshar has claimed that this result constitutes a violation of the Principle of Complementarity. This paper discusses the implications of this experiment and considers how Cramer’s Transactional Interpretation easily accomodates the result. It is also shown that the Afshar experiment is analogous in key respects to a spin one-half particle prepared as “spin up along x”, subjected to a nondestructive confirmation of that preparation, and post-selected in a specific state of spin along z. The terminology “which-way” or “which-slit” is critiqued; it is argued that this usage by both Afshar and his critics is misleading and has contributed to confusion surrounding the interpretation of the experiment. Nevertheless, it is concluded that Bohr would have had no more problem accounting for the Afshar result than he would in accounting for the aforementioned pre- and
post-selection spin experiment, in which the particle’s preparation state is
confirmed by a nondestructive measurement prior to post-selection. In addition,
some new inferences about the interpretation of delayed choice experiments are
drawn from the analysis.

1. Introduction.The Young two-slit experiment is a famous illustration of wave-particle duality: a quantum particle emitted toward a screen with two small slits will produce an interference pattern on a detecting screen downstream from the slits. On the other hand, as has been repeatedly demonstrated, if one tries to obtain “which-way” or “which slit” information, the downstream interference

Presence and Entanglement

The equivalence principle(29 DEcember 2005 Wiki)

The accuracy of the gamma-ray measurements was typically 1%. The blueshift of a falling photon can be found by assuming it has an equivalent mass based on its frequency E = hf (where h is Planck's constant) along with E = mc2, a result of special relativity. Such simple derivations ignore the fact that in general relativity the experiment compares clock rates, rather than than energies. In other words, the "higher energy" of the photon after it falls can be equivalently ascribed to the slower running of clocks deeper in the gravitational potential well. To fully validate general relativity, it is important to also show that the rate of arrival of the photons is greater than the rate at which they are emitted

From a layman perspective, I am seeing that the nature of the gravitational field in a circumstance where such "strengths and weaknesses" would have been viable property to our way of seeing?

Lensing by showing us, that such avenues would have found the valution of the photon travelling the quickest route?

So, by changing the face of what we had always agreed upon( encapsulating Gr perspective bulit upon Maxwells creations and the geometries), as the way of energy and matter relation, such presence, would have then said, as a force carrier, that in these two cases, I will always be the way you would interpret my being in gravitational context?? You assume the model

So "always" in the "presence" of a gravitational field?

Fifth force(29 Dec 2005 Wiki)

A few physicists think that Einstein's theory of gravity will have to be modified, not at small scales, but at large distances, or, equivalently, small accelerations. They point out that dark matter, dark energy and even the Pioneer anomaly are unexplained by the Standard Model of particle physics and suggest that some modification of gravity, possibly arising from Modified Newtonian Dynamics or the holographic principle. This is fundamentally different from conventional ideas of a fifth force, as it grows stronger relative to gravity at longer distances. Most physicists, however, think that dark matter and dark energy are not ad hoc, but are supported by a large number of complementary observations and described by a very simple model.

Now, I am having a bit of a problem with the idea of "high energy" being "redshifted" because of the nature of the blackholes gravitational force? IN this case such a presence wouldhave by nature and strength of curvatures would have forced high enegy states to immediately curve backwards. If such blueshigfting is free to penetrate the fastest routes then such signs woudl have gave indication, yet the immediate horizon vicinity, plays havoc on these ideas?

The only way one could ascertain such a state of redshifting, is if "high energy" was evident in proximaty of the blackhole?

Would this be true or false?

Entanglement

Hypercharge (29 Dec 2005 Wiki)

In particle physics, the hypercharge (represented by Y) is the sum of the baryon number B and the flavor charges: strangeness S, charm C, bottomness and topness T, although the last one can be omitted given the extremely short life of the top quark (it decays to other quarks before strong-interacting with other quarks).

Plectics, by Murray Gellman

It is appropriate that plectics refers to entanglement or the lack thereof, since entanglement is a key feature of the way complexity arises out of simplicity, making our subject worth studying.

So by simlifying these ideas of entanglement, we find a model building from the orientation supplied by Murray Gellman, where expeirmentatin and hisortical pursuate have created a legitamate question about what Penrose might ask of a New quantum world view?




Secondly, entanglement issues were progressive, and historically this helps clear up the issues of spooky?


While dissident took us fastidiously to Hooft, I could also interject with Penrose?

But in doing so, such progressions from "simplifed states of plectics" would have taken us through a whole host of idealization in terms's of "dimensional significance," had we adopted Hooft's holographical vision?

If by Hooft's very beginnings, we had thought deeply about the progresions he had taken us too, then how would such developements have looked, if we were the prisoners, and the light behind us, pointed to the shadows on thew wall?

Acoustic Hawking Radiation

What did we learn from studying acoustic black holes? by Renaud Parentani

The study of acoustic black holes has been undertaken to provide new insights about the role of high frequencies in black hole evaporation. Because of the infinite gravitational redshift from the event horizon, Hawking quanta emerge from configurations which possessed ultra high (trans-Planckian) frequencies. Therefore Hawking radiation cannot be derived within the framework of a low energy effective theory; and in all derivations there are some assumptions concerning Planck scale physics. The analogy with condensed matter physics was thus introduced to see if the asymptotic properties of the Hawking phonons emitted by an acoustic black hole, namely stationarity and thermality, are sensitive to the high frequency physics which stems from the granular character of matter and which is governed by a non-linear dispersion relation. In 1995 Unruh showed that they are not sensitive in this respect, in spite of the fact that phonon propagation near the (acoustic) horizon drastically differs from that of photons. In 2000 the same analogy was used to establish the robustness of the spectrum of primordial density fluctuations in inflationary models. This analogy is currently stimulating research for experimenting Hawking radiation. Finally it could also be a useful guide for going beyond the semi-classical description of black hole evaporation.

I am held to a state of profound thinking when I thnk about Einstein in a dream I had. Where his satisfaction was raised, as a surpize, as I listen to the very sound of ice in a glass jug as I slowly turned it? From it, a certain recognition by Einstein held him in amazement as this sound seem to satisfy what he was so long search for in his answers. Yes it is a dream, but this set the stage from what I had been doing previous as I was thinking about the Webber bars and the way research was moving along this avenue to detect grvaiational waves. Movements to the giant Ligo inteferometers, to help us in our pursuate.

I know it is not always easy to understand the thinking here as it is piecemealed, while my minds works to weave a cohesive picture here. So, my apologies.

There is a special class of fluids that are called superfluids. Superfluids have the property that they can flow through narrow channels without viscosity. However, more fundamental than the absence of dissipation is the behavior of superfluids under rotation. In contrast to the example of a glass of water above, the rotation in superfluids is always inhomogeneous (figure). The fluid circulates around quantized vortex lines. The vortex lines are shown as yellow in the figure, and the circulating flow around them is indicated by arrows. There is no vorticity outside of the lines because the velocity near each line is larger than further away. (In mathematical terms curl v = 0, where v(r) is the velocity field.)

Early on the very idea of measuring discrete functions in relation to how we might percieve quark and gluonic natures which arose from the gold ion collisions, raises the very idea of how we may look at the analogies sought to help shape perspective from the horizon, to what is emitted? A Virtual Photon released in pair production at the horizon can become?

While I had come to recognize the differences in thermodynamic principals held in context of the blackhole, the very idea of He⁴raises some interesting scenario's in relation to sound values, while "extreme curvature" had been lead too as a singularity in the blackhole?? This singuarity thought to besimlar to the hawking no bondary proposal would not sit well with how the very nature of the blackhole actually becomes the superfluid that we hav come to recognize in the collider perspectives. This changes things somewhat. How fortunate is it in relation to how we see the supersymmetry that coudl arise inthe action fo symmetry break that signs could be lea dto the nature of the phton release and stretched under the aupsice of theis grvaiutional field?

Overlap of "quantum" and "classical" behaviour

Explanations of Hawking radiation around a black hole often use a description of quantum-mechanical pair production effects occurring on a curved spacetime background. Although this paradigm does not obviously lend itself to a "classical" reinterpretation, research on the black hole membrane paradigm has revealed some overlap between "classical" and "quantum" descriptions.

Plato:

What conditions would have allowed such a scene to be developed in supersymmetrical view, that I had wondered, could such a perfect fluid be the example needed? What blackholes hole would allow such a view to be carried down to this level in gold ion collisions, that we might see the results of string theory, as a useful analogy in the discernation of what can now be brought forward for inspection.

So having recognized the two phases of superfluids that ha dbeen created how woud such analogies move th emind to coisder this other nature of of a helium whose viscosity woud have allowed the sound to travel under the same aupsice held in context of the photon whose naure would havebeen rvealled in redshifting? Would suchj a thing held in context of blue shifting be cancelled out in quark/gluonic phases. that the analogy no longer suits our purpose? While sound i analogy in helium may have revealled the very nature of the superfluid designs we woudl like to see in comparsion to how thephotons are looked at with such short distances? They are cancelled out here?


Thorne: Black holes and time warps…, chapter 11, "What is reality?"

The laws of black-hole physics, written in this membrane paradigm, are completely equivalent to the corresponding laws of the curved-spacetime paradigm – as long as one restricts attention to the hole's exterior. Consequently, the two paradigms give precisely the same predictions for the outcomes of all experiments or observations that anyone might make outside a black hole …"

What is a Phonon/Photon?

Phonon:

A particle of sound. The energy E of a phonon is given by the Einstein relation, E = hf. Here f is the frequency of the sound and h is Planck's constant. The momentum p of a photon is given by the de Broglie relation, p = h/λ. Here λ is the wavelength of the sound

Photon:

A particle of light. The energy E of a photon is given by the Einstein relation, E = hf. Here f is the frequency of the light and h is Planck's constant. The momentum p of a photon is given by the de Broglie relation, p = h/λ. Here λ is the wavelength of the light.

As you look at the picture above, the very depths to which vision might have been imparted in recognition of this supefluid, what value would be assign something held in the context of the wave nature to have seen it described as a granulization and then thought of in terms of the langangrian perspective as cosmic strings which cross this universe? Make sure you click on the picutre.

Granularity of the Fluid?

Taken from the horizon, how would this fluid look if held in context of William Unruh's previously thought "continous nature" or as a discretium release of Hawking like phonons? It may be "by analogy" help physicists with respect to the nature of gravitational blackholes?

The Single Photon Experiment at Rowan University is a Success!

Einstein/Bohr Debate

"Not often in life has a man given me so much happiness by his mere presence as you have done," Einstein wrote to Bohr. "I have learned much from you, mainly from your sensitive approach to scientific problems."

John G. Cramer

This column is about experimental tests of the various interpretations of quantum mechanics. The question at issue is whether we can perform experiments that can show whether there is an "observer-created reality" as suggested by the Copenhagen Interpretation, or a peacock’s tail of rapidly branching alternate universes, as suggested by the Many-Worlds Interpretation, or forward-backward in time handshakes, as suggested by the Transactional Interpretation? Until recently, I would have said that this was an impossible task, but a new experiment has changed my view, and I now believe that the Copenhagen and Many-Worlds Interpretations (at least as they are usually presented) have been falsified by experiment.

The Single Photon Experiment at Rowan University is a Success!

Entanglement applies to two or more particles even if one of them is used as input to the two slit experiment, it is not applicable to single particle experiments.

Afshars experiment is conducted in such a manner that it is the setup of the experiment coupled with the conservation of momentum that allows us to know exactly which slit the photon has gone through.

Whilst knowing which way the photon has gone we also manage to show the absense of interference with both slits open via intererence minima.

Measurement without “measurement”: Experimental violation of Complementarity and its aftermath

Bohr’s Principle of Complementarity of wave and particle aspects of quantum systems has been a cornerstone of quantum mechanics since its inception. Einstein, Schrödinger and deBroglie vehemently disagreed with Bohr for decades, but were unable to point out the error in Bohr’s arguments. I will report three recent experiments in which Complementarity fails, and argue that the results call for an upgrade of the Quantum Measurement theory. Finally, I will introduce the novel concept of Contextual Null Measurement (CNM) and discuss some of its surprising applications. Web-page: users.rowan.edu/~afshar/ Preprint (published in Proc. SPIE 5866, 229-244, 2005): http://www.irims.org/quant-ph/030503/

Violation of the principle of complementarity, and its implications
Shahriar S. Afshar

Bohr's principle of complementarity predicts that in a welcher weg ("which-way") experiment, obtaining fully visible interference pattern should lead to the destruction of the path knowledge. Here I report a failure for this prediction in an optical interferometry experiment. Coherent laser light is passed through a dual pinhole and allowed to go through a converging lens, which forms well-resolved images of the respective pinholes, providing complete path knowledge. A series of thin wires are then placed at previously measured positions corresponding to the dark fringes of the interference pattern upstream of the lens. No reduction in the resolution and total radiant flux of either image is found in direct disagreement with the predictions of the principle of complementarity. In this paper, a critique of the current measurement theory is offered, and a novel nonperturbative technique for ensemble properties is introduced. Also, another version of this experiment without an imaging lens is suggested, and some of the implications of the violation of complementarity for another suggested experiment to investigate the nature of the photon and its "empty wave" is briefly discussed.

From Experience to Metaphors on Cosmic Variance

Most of you know who Alice is Right? Well Alice isa fictional story for those of you who don't know, the story of the Looking Glass has become synonmous witha a photon's flight into Young's other side.

I do not think I am held in to high a esteem, although my work and struggle has been to pierce the veil of illusions that could mistakenly take one down the wrong informational path. So the title above is quite fitting in a professional sense I guess. But yes I will persevere, to try my best and show historical context of where we have already been, so people understand this has not just been be a one night stand with science, but a life long one, without credentials.

So what did I mean by writing this following comment? Withn this comment I created this link here, to fast track people to today's culminative views on what Alice is now witnesssing from her metaphorical world.

I like your article Sean.

Even Penrose had to seek the help of Escher.

I mentioned Alice briefly in relation to the photonic journey, but realistically this adventure from mathematics to the fabled story has indeed capture the mind in what Alice is doing today. You see?

Spooky action at a distance has been extended from to issues of quantum entanglement, yet in it’s history, this was the world on the other side(Hyphephysics has a geometrical valuation in algebraic geometry(NOn communitative)?

So “piece meal” physics of imagination and experimentation, has move the metaphorial mind to consider “other experiments” as you suggest in this extension.

Yes there are dangers as well. But these are eliminated once engaged in the reality makng process.

Alice in Wonderland, A real World Fantasy



By creating the link in the picture above I am directing attention to what has historcally come out of that past as well as directing the mind to consider how math derivatives can blossom into dynamical situations, in representation not only of Feyman's toy models, but of what Lewis Carroll did in hs mathematical state of mind, to purposefully generate consensus in a fictional model.

The Looking Glast

To a World on the other side?



I mean for me it was a interesting analogy to have considered that if a photon was emitted through what value would all these paths be, if we were to see what arises on the screen? Young's experiement wa sindeed quite interesting to consider. So had I define the spac eand journey that photon could take?

So we have these people now who are working on one aspect of Cern and the LHC that will look at how Alice, now becomes witness to the wonderfuls works of a long string of researchers, scientists who are coming together to create this reality. But does it end with Cern. Of course not. The very title I imparted to Glast or Glass, highlights this continuance and effort to measurte early universe information and the design of the calorimeter is crucial here.

So let me fast track again for you to the Alice of Cern, to now engage what Glast has accomplished. These trains of thought have no one other then myself to consider, because it was in my not understading these issues that I moved into the world of science and laid myself open to the shots that good men and woman would have, about the lessser in knowledge, and those who had not earned the "right to speak?" I am outside academia, looking in:)

So what do I do without trying to infringe on copy right but enlist pictures and quotation from article such as this that follows to direct attention to such accomplishements. Such that are culminative from a fictional and fantastical world derived from some early history. Is it myth that I create or the contued updating of what had been accomplishe by such iteractive feature of events inthat early cosmo to what is evident in the calorimetric view today. We had set the parameters of such interactions that we now have a model whch we will use inthat satellite. We will witnes the SR views that Smolin and other sare being tuff with before ever entetaining the completed version of GR as a extension of geometrical realites set in a hyperdimensioal sense. That is not acceptable to them?

Second Glast Tower Installed By Matthew Early Wright

GLAST has started to take physical shape with the installation of the second tracking tower last month. Now the team can perform the first tests ever of multiple towers in the grid array. Researchers expect to learn much about how the towers and the analysis software will cooperate to eventually produce sharp images of the gamma-ray sky.

So I understand why Smolin and others like this road to confirmation of early universe considerations and tangible proofs to the realities of interactive phases taking us as close as they can. Why such a pricipal based in SRian revolutions are quite acceptable to them becuase of ths science status seen there.

Shall we disavow the roads to theoretcial developement then, or shall we say, that all fictional stories have a basis to them? The real world functions, roads that lead from? What basis are these then in our exploratory views?

Well I have shown one year's worth. If you check my dates of two image links, where the Alice pictures are involved. Does it mean, that I have not been paying my dues as the years have passed? On the contrary, the internal motivation does not need approval or to be paid, for it is more of the interest I have in this reality, to explain nature's hidden aspect and views of alternate pathways. INductive/deductive pulses, to develope forward, and grow with where society is currently housing these scientists in their endeavors.

Yes I might be the pizza man behind the counter, or, the individual that sits next to you on the airplane. I may not sit at your dinner table, but I am, and have been host to the family. The extended family, that although not on par with the scientific updatea nd talk in a communal dialogue, injects humour, and tidbits to spark the wonder in their own observational eye about life.

How we can greatly effect those around us, by example, and quiet invisibility, by the images and impacts that we can inject into that same family called society. But really this is just a sample view about one aspect of reality that scientists have to offer.

There are indeed unscientific views that are made up in our individuality. As emotive forces that act as undercurrents and "emotive" society. Could these be wild in my speculations, that the world is much like "this Onion" to have said, these are culminative views about a planet whose consciousness is developing in stages as well. That global perspective would have assigned hotspots in the world of color valuations, in that same global warring perspective? Color then, would be very dynamic, if we changed our views on how we see the world in other foundational perspectives.

Information on Entanglement

Atomic dance

What the teams at the University of Innsbruck and the US National Institute of Standards and Technology (Nist) did was teleport qubits from one atom to another with the help of a third auxiliary atom.

It relies on a strange behaviour that exists at the atomic scale known as "entanglement", whereby two particles can have related properties even when they are far apart. Einstein called it a "spooky action".

Lots of people haven't a clue what entanglement is all about. That's why this site is most helpful

To understand quantum entanglement, several ideas and words must be explained, especially the idea of a photon. The photon is a key concept in physics, and so critical to entanglement that its behaviours must be fully understood. Yet before delving into the details of photons, we need to understand the world of the very tiny, beginning with waves and atoms.

I would like to thank the person for giving this link, as it can helps others as well as myself understand the entanglement issues much more easily through generalization.

I would like to respond in kind.

Projective Geometries

Action at a Distance

Now ths statement might seem counterproductive to the ideas of projective geometry but please bear with me.

In physics, action at a distance is the interaction of two objects which are separated in space with no known mediator of the interaction. This term was used most often with early theories of gravity and electromagnetism to describe how an object could "know" the mass (in the case of gravity) or charge (in electromagnetism) of another distant object.

According to Albert Einstein's theory of special relativity, instantaneous action-at-a-distance was seen to violate the relativistic upper limit on speed of propagation of information. If one of the interacting objects were suddenly displaced from its position, the other object would feel its influence instantaneously, meaning information had been transmitted faster than the speed of light.

Test of the Quantenteleportation over long distances in the duct system of Vienna Working group Quantity of experiment and the Foundations OF Physics Professor Anton Zeilinger

Quantum physics questions the classical physical conception of the world and also the everyday life understanding, which is based on our experiences, in principle. In addition, the experimental results lead to new future technologies, which a revolutionizing of communication and computer technologies, how we know them, promise.

In order to exhaust this technical innovation potential, the project "Quantenteleportation was brought over long distances" in a co-operation between WKA and the working group by Professor Anton Zeilinger into being. In this experiment photons in the duct system "are teleportiert" of Vienna, i.e. transferred, the characteristics of a photon to another, removed far. First results are to be expected in the late summer 2002.

One of the first indications to me came as I looked at the history in regards to Klein's Ordering of Geometries. Now I must admit as a layman I am very green at this understanding but having jumped ahead in terms of the physics involved, its seems things have been formulating in my head, all the while, this underatnding in terms of this "order" has been lacking.

In Euclidean geometry, the basic notions are distances and angles. The transformations that preserve distances and angles are precisely the rigid motions. Effectively, Klein's idea is to reverse this argument, take the group of rigid motions as the basic object, and deduce the geometry. So a legitimate geometric concept, in Euclidean geometry, is anything that remains unchanged after a rigid motion. Right-angled triangle, for example, is such a concept; but horizontal is not, because lines can be tilted by rigid motions. Euclid's obsession with congruent triangles as a method of proof now becomes transparent, for triangles are congruent precisely when one can be placed on top of the other by a rigid motion. Euclid used them to play the same role as the transformations favored by Klein.

In projective geometry, the permitted transformations are projections. Projections don't preserve distances, so distances are not a valid conception projective geometry. Elliptical is, however, because any projection of an ellipse is another ellipse.

So spelt out here is one way in which this progression becomes embedded within this hisotry of geometry, while advancing in relation to this association I was somewhat lifted to question about Spooky action at a distance. WEll if such projective phase was ever considered then how would distance be irrelevant(this sets up the idea then of probabilistic pathways and Yong's expeirment)? There had to be some mechanism already there tht had not been considered? Well indeed GHZ entanglement issues are really alive now and such communication networks already in the making. this connection raised somewhat of a issue with me until I saw the the phrase of Penrose, about a "New Quantum View"? Okay we know these things work very well why would we need such a statement, so I had better give the frame that help orientate my perspective and lead to the undertanding of spin.



Now anywhere along the line anyone can stop such erudication, so that these ideas that I am espousing do not mislead. It's basis is a geometry and why this is important is the "hidden part of dirac's mathematics" that visionization was excelled too. It is strange that he would not reveal these things, all the while building our understanding of the quantum mechanical nature of reality. Along side of and leading indications of GR, why would not similar methods be invoked as they were by Einstein? A reistance to methodology and insightfulness to hold to a way of doing things that challenegd Dirac and cuased sleepless nights?



Have a look at previous panel to this one.

While indeed this blog entry open with advancements in the Test in Vienna, one had to understadn this developing view from inception and by looking at Penrose this sparked quite a advancement in where we are headed and how we are looking at current days issues. Smolin and others hod to the understnding f valuation thta is expeirmentally driven and it is not to far off to se ehosuch measure sare asked fro in how we ascertain early universe, happening with Glast determinations.

Quantum Cryptography

Again if I fast forward here, to idealization in regards to quantum computational ideas, what value could have been assigned to photon A and B, that if such entanglement states recognize the position of one, that it would immediately adjust in B?

Spooky At any Speed

If a pair of fundamental particles is entangled, measuring an attribute of one particle, such as spin, can affect the second particle, no matter how far away. Entanglement can even exist between two separate properties of a single particle, such as spin and momentum. In principle, single particles or pairs can be entangled via any combination of their quantum properties. And the strength of the quantum link can vary from partial to complete. Researchers are just beginning to understand how entanglement meshes with the theory of relativity. They have learned that the degree of entanglement between spin and momentum in a single particle can be affected by changing its speed ("boosting" it into a new reference frame) but weren't sure what would happen with two particles.

So there is this "distance measure" here that has raised a quandry in my mind about how such a projective geometry could have superceded the idea of "spooky things" and the issues Einstein held too.

So without understanding completely I made a quantum leap into the idealization in regards to "logic gates" as issues relevant to John Venn and introduced the idea around a "relative issues" held in my mind to psychological methods initiated by such entanglement states.

As far a one sees here this issue has burnt a hole in what could have transpired within any of us that what is held in mind, ideas about geomtires floated willy Nilly about. How would such "interactive states" have been revealled in outer coverings.

The Perfect Fluid

Again I am fstforwding here to help portray question insights that had been most troubling to me. If suych supersymmetrical idealizations arose as to the source and beginning of existance how shall such views implement this beginning point?

So it was not to unlikely, that my mind engaged further problems with such a view that symmetry breaking wouldhad tohave signalled divergence from sucha state of fluid that my mind encapsulated and developed the bubble views and further idealizations, about how such things arose from Mother.

What would signal such a thing as "phase transitions" that once gauged to the early universe, and the Planck epoch, would have revealled the developing perspective alongside of photon developement(degrees of freedom) and released information about these early cosmological events.

So I have advance quite proportinately from the title of this Blog entry, and had not even engaged the topological variations that such a leading idea could have advanced in our theoretcical views of Gluonic perceptions using such photonic ideas about what the tragectories might have revealled.

So indeed, I have to be careful here that all the while my concepts are developing and advanced in such leaps, the roads leading to the understanding of the measure here, was true to form and revalled issues about things unseen to our eyes.

It held visionistic qualities to geometric phases that those who had not ventured in to such entanglement states would have never made sense of a "measure in the making." It has it's limitation, though and why such departures need to be considered were also part of my question about what had to come next.

Plectics

Murray Gellman:

The name that I propose for our subject is "plectics," derived, like mathematics, ethics, politics, economics, and so on, from the Greek. Since plektos with no prefix comes from *plek- , but without any commitment to the notion of "once" as in "simple" or to the notion of "together" as in "complex," the derived word "plectics" can cover both simplicity and complexity.

It is appropriate that plectics refers to entanglement or the lack thereof, since entanglement is a key feature of the way complexity arises out of simplicity, making our subject worth studying.

Entanglement Interpretation of Black Hole Entropy

"Entanglement entropy" is the latest article posted by Lubos Motl. From this ideas are brought back for consideration, with Nigel and myself in trying to explain. I am not to swift sometimes in my explanations, so the inudation of links here direct underscore the probabilistic valuation one might assign perspective in relation to the topic assigned by Lubos in titled Link.



Plato said:

I was going after consensus in terms of how temperature on Bekenstein bound was seen in context of 5th dimenison and 5d comparisons.

Bekenstein image is very useful here as was Lee Smolins discription.

If not in your surprize(?) I do not think Lubos Motl and Lee Smolin are too far apart? Here is a better picture of the Lava lamp. The Window on the Universes, has extended our understanding here as well.



Entanglement Interpretation of Black Hole Entropy in String Theory

This allows the comparison of the entanglement entropy with the entropy of the field theory dual, and thus, with the Bekenstein-Hawking entropy of the black hole. As an example, we discuss in detail the case of the five dimensional anti-de Sitter, black hole spacetime

Glast determination in "calorimeric views" would be consistent the deeper look of gluonic perception at such levels? It would be hard to know this starting point yet the environment is conducive, non?

Three quarks indicated by red, green and blue spheres (lower
left) are localized by the gluon field.

A quark-antiquark pair created from the gluon field is
illustrated by the green-antigreen (magenta) quark pair on the right. These quark pairs give rise to a meson cloud around the proton.

The masses of the quarks illustrated in this diagram account for only 3% of the proton mass. The gluon field is responsible for the remaining 97% of the proton's mass and is the origin of mass in most everything around us.

Experimentalists probe the structure of the proton by scattering electrons (white line) off quarks which interact by exchanging a quantum of light (wavy line) known as a photon.

Remember that the age is determined by the dark matter density. Mathematically, the length is roughly the geometric mean of the mean free path and the distance light can travel without obstruction (the horizon scale).

New Spacetime Quantum World View?

Of course the source of my statement about Penrose needed some clarification so I'll put him here for reference. Those who had been following will also have know that the view of Gerard t' hooft amazingly, asks the same question?

Do we need a New spacetime Quantum world view?

By taking advantage of quantum phenomena such as entanglement, teleportation and superposition, a quantum computer could, in principle, outperform a classical computer in certain computational tasks. Entanglement allows particles to have a much closer relationship than is possible in classical physics. For example, two photons can be entangled such that if one is horizontally polarized, the other is always vertically polarized, and vice versa, no matter how far apart they are. In quantum teleportation, complete information about the quantum state of a particle is instantaneously transferred by the sender, who is usually called Alice, to a receiver called Bob. Quantum superposition, meanwhile, allows a particle to be in two or more quantum states at the same time

As said, I do not want to further expound on the fansty world of Lewis Carroll , but bring the concept of mirrorworld here for more consideration. IN that, the detectors, Alice and BOb are two photons, that entangle and show this causal relationship, where before the idea existed that such a link could have never been made.

You have to remember to make sense of this as a junior being exposed to the mass of informtaion out there, it required sifting to get to the essence of the issues. Hopefully I have lead the mind to consider this issue now in terms of what was spooky to einstein, is not so spooky to the entanglement issues?

The Future of the Quantum Mechanical View

Quantum gravity and black holes . Whenever particles are separated further than 10-33cm, the gravitational force between them is very adequately described by Einstein's theory of general relativity. But when they come closer, the gravitational force becomes strong, whereas gravity is more complicated than gauge theories. Finding a logically coherent theory telling us how particles behave at such small distance scales is a fundamental problem. The most dazzling problem is the question whether these particles will make microscopic black holes. Predicting the behavior of such tiny black holes is a deep theoretical challenge. Or maybe they can't form black holes? Formulating laws of physics that avoid black hole formation is even more difficult.

Microstate blackholes and blackholes of the cosmo, as triggers?

So we are indeed looking for this method, this trigger, that would unite both possible worlds, to understand as we look around us, something exists which we had never entertained before? Microstate blackholes and blackholes of the cosmo, as triggers?