Tuesday, February 21, 2006

Resonance Curve

Some might inference a very spherical world, but when you take "this view below" the world becomes very bumpy indeed. This was only possible by a revision in thinking and science of measure. Perspective was changed. The "biological genetic result" are lead by the mind, and not the other way around?:) Evolution of the brain structure makes me think this. Evolution of Emotive IQ, makes me think this.

This of course, in regards to biological thinking, runs in contradiction to everything that has been built up? What neurological pathways is built in thinking when your thinking "fires" neuronic pathways that never existed before?

While these pathways are already established, in our unthinking coordinated body movement these had been relegated to such a product of the species, after much travelling and exercising the mind's connection. Then w let it go, like we let many things go after repeatingly reliving the experience and assuming such idealizations. All thinking becomes biased then, yet we can meet the memory, and current daily incursions comparatively lived, by changing the way we see. By the way we meet situations. We had to open up our memory and track the evoluton of reaction.

That these migh tbe seen on anotherlevel, would have not been so far remved from the work being done on how gravity is thought about.



It's an ole way of thinking(GR perspective) and how measurement above, and at the earth, helps one see? That this process had been taken to very precise mesurements gravitationally considered?

Variable "constants" would also open the door to theories that used to be off limits, such as those which break the laws of conservation of energy. And it would be a boost to versions of string theory in which extra dimensions change the constants of nature at some places in space-time.


I mean when you take your thinking and transfer it to what happens within context of the gravitational field, then you soon learn the value of the photon within that environ.

The "spectrum" had been modified to a way of thinking, and is representative. But in order to do that, you had to move the thinking from GR to abstract valuations. You might not have seen this before, if you had not moved to a fifth dimensional understanding. "Spacetime wording" then becomes self explanatory, about it's every nature. "Spacetime" then becomes the "fabric of the cosmos."

Oscillatory Universe(21 Febuary 2006 Wiki)

The oscillatory universe is the hypothesis, attributable to Richard Tolman from 1934, that the universe undergoes an infinite series of oscillations, each beginning with a big bang and ending with a big crunch. After the big bang, the universe expands for a while before the gravitational attraction of matter causes it to collapse back in and undergo a bounce.

Monday, February 20, 2006

More on Dual Nature of Blackhole

In some theories, microscopic black holes may be produced in particle collisions that occur when very-high-energy cosmic rays hit particles in our atmosphere. These mini-black-holes would decay into ordinary particles in a tiny fraction of a second and would be very difficult to observe in our atmosphere.

The ATLAS Experiment offers the exciting possibility to study them in the lab (if they exist). The simulated collision event shown is viewed along the beampipe. The event is one in which a mini-black-hole was produced in the collision of two protons (not shown). The mini-black-hole decayed immediately into many particles. The colors of the tracks show different types of particles emerging from the collision (at the center).



The RHIC fireball as a dual black hole
We argue that the fireball observed at RHIC is (the analog of) a dual black hole. In previous works, we have argued that the large $s$ behaviour of the total QCD cross section is due to production of dual black holes, and that in the QCD effective field theory it corresponds to a nonlinear soliton of the pion field. Now we argue that the RHIC fireball is this soliton. We calculate the soliton (black hole) temperature, and get $T=4a /\pi$, with $a$ a nonperturbative constant. For $a=1$, we get $175.76 MeV$, compared to the experimental value of the fireball ``freeze-out'' of about $176 MeV$. The observed $\eta/ s$ for the fireball is close to the dual value of $1/4\pi$. The ``Color Glass Condensate'' (CGC) state at the core of the fireball is the pion field soliton, dual to the interior of the black hole. The main interaction between particles in the CGC is a Coulomb potential, due to short range pion exchange, dual to gravitational interaction inside the black hole, deconfining quarks and gluons. Thus RHIC is in a certain sense a string theory testing machine, analyzing the formation and decay of dual black holes, and giving information about the black hole interior.



The case for mini black holes
Geodesics in Kerr space-time, as predicted by the theory of general relativity. Small black holes produced, for example at colliders, are expected to be spinning. Image: Numerical simulation by Max Planck Institute for Gravitational Physics, Albert Einstein Institute (AEI); visualization by W Benger, Zuse Institute, Berlin/AEI

Approaches of the Gauss-Bonnet type, which include quadratic terms in scalar curvature in the Lagrangian, are good candidates for a description beyond general relativity as they can be supported both by theoretical arguments (heterotic strings in particular) and by phenomenological arguments (Taylor expansion in curvature). In such a case, the coupling constant of the Gauss-Bonnet term, namely the quantum character of the gravitational theory used (and the link with the underlying string theory) can also be reconstructed and the LHC would become a very valuable tool for studying speculative gravitation models.

Other promising avenues are also being investigated for new physics. Firstly, the black holes formed may be excellent intermediate states for highlighting new particles. When the collision energy is higher than the Planck scale ED, the cross-section for the creation of black holes is quite large (~500 pbarn) and has no suppression factor. Moreover, when the temperature of the black hole is higher than the mass of a particle, the particle must be emitted during evaporation in proportion to its number of internal degrees of freedom. There is thus a definite potential for the search for the Higgs or for supersymmetric particles in the evaporation products of black holes, possibly with cross-sections much greater than for the direct processes. Finally, taking account of a D-dimensional cosmological constant also modifies the evaporation law. If the constant is sufficiently high - which is possible without contradicting the low value measured in our brane - the temperature and the coupling coefficients with the entities emitted could be the signature of this particular structure of space-time. It would be quite neat and certainly surprising that a measurement of the cosmological constant in the bulk should come from the LHC!

Microscopic black holes are thus a paradigm for convergence. At the intersection of astrophysics and particle physics, cosmology and field theory, quantum mechanics and general relativity, they open up new fields of investigation and could constitute an invaluable pathway towards the joint study of gravitation and high-energy physics. Their possible absence already provides much information about the early universe; their detection would constitute a major advance. The potential existence of extra dimensions opens up new avenues for the production of black holes in colliders, which would become, de facto, even more fascinating tools for penetrating the mysteries of the fundamental structure of nature


Public Service Announcement: Black Holes @ RHIC by John Steinberg

Unfortunately, all of this is overstated. At RHIC we don’t make a “real” black hole, in the sense envisioned by Einstein’s General Theory of Relativity. Rather, Nastase’s point of view is that RHIC collisions can be described by a “dual” black hole. But what does “dual” mean in this context? It’s not “two-ness” in any sense, but rather indicates that one can write down a theory which describes the collision as a black hole, but in a completely different world than that we see around us. To make his model work, he (and many other researchers who are exploring this direction) make a calculation of a black hole in 10 dimensions in order to describe difficult (but gravitationally benign) aspects of the strong interaction in 4 dimensions.


No Black Holes Today, Thanks

As George Musser remarked to me in an email,

Egads, what a mispresented story. Nastase says they might be *dual* to black holes -- a relation of interest in string theory, but hardly the same thing as an honest-to-god black hole.

Exactly. The point of Nastase's paper is not that the RHIC fireball may be a black hole but that it might be described by the same math used for black holes. Such duality is vital in modern physics, because some problems are easier to formulate and solve within one mathematical framework rather than another, although both are applicable.

Now, if you want to know about the real prospects for making microscopic black holes by colliding particles in an accelerator, watch for the May issue of Scientific American, which will, by happy coincidence, have a feature on that very subject.


See:

  • Microstate Blackhole Production

  • Some Distant Bounding Surface
  • Friday, February 17, 2006

    Tabula rasa: The Glass Room

    For a person like me, I would want to define the origination and source of all possibilites. While it might have been a philosophical journey of John Locke, or further rendition by Stephen Pinker. I have a perspective on this, that I think would seem a little strange.

    I mean really, if, each of us is born into this world with such a blank slate, then how is an idea incorporated into such a design of our blank slate. Especially, if there had not been some influence predisposed, to draw ideas into the appropriate environment for consideration?



    Science of (17 Febuary 2006 Wikpedia)

    In computer science, tabula rasa refers to the development of autonomous agents which are provided with a mechanism to reason and plan toward their goal, but no "built-in" knowledge-base of their environment. They are thus truly a "blank slate".

    In reality autonomous agents are provided with an initial data-set or knowledge-base, but this should not be immutable or it will hamper autonomy and heuristic ability. Even if the data-set is empty, it can usually be argued that there is an in-built bias in the reasoning and planning mechanisms. Either intentionally or unintentionally placed there by the human designer, it thus negates the true spirit of tabula rasa.

    Generally people now recognise the fact that most of the brain is indeed preprogrammed and organised in order to process sensory input, motor control, emotions and natural responses. These preprogrammed parts of the brain then learn and refine their ability to perform their tasks. The only true clean slate in the brain is the neo-cortex. This part of the brain is involved in thought and decision making and is strongly linked with the amygdala. The amygdala is involved in responses such as fight or flight and emotions and like other parts of the brain is largely "pre-programmed", but has space to learn within its "programming". The amygdala is important in that it has a strong influence over the neo-cortex. There is much debate as to whether the amygdala prevents the neo-cortex from being defined as a clean slate.

    Controversially the amygdala is different from person to person. However, it only affects emotions and not intelligence. Another controversial element is in the differing size of the neo-cortex.


    So from a science perspective now that we might have located the physical intepretation, I am more concerned with how the creative abilities will have allowed such a D brane intersection interpretation, possible in such a glass room for consideration?

    While you had yor balckboards and created the envirnonment( glass room), the room becomes somewhat different, if held to perspectve, where images and information would makes its way into this room, as well as, having tentacles that reach into other laptops discussed in the Future of the Notebook.

    Thursday, February 16, 2006

    SPACE, THE FINAL FRONTIER


    Star Trek V: The Final Frontier (1989)


    Some of the older, and not so old, when they hear "this title" above, do they think of Startrek's exploits in space? As we were given "a view" of space travellers going from one end of the universe to another and as they encountered alien civilizations and such.

    Well I don't want to take you to this extreme, and suffer "alien discrimmination" in the "new thinking" of society, so I will just move back a bit and begin with Hubble pictures, and what previews these give to us.


    L.L. Orionis colliding with the Orion Nebula flow


    The Hubble Space Telescope imaged this view in February 1995. The arcing, graceful structure is actually a bow shock about half a light-year across, created from the wind from the star L.L. Orionis colliding with the Orion Nebula flow. For more information on this image, see HubbleSite. Click on the image for a very large version. Credit: NASA, The Hubble Heritage Team (STScI/AURA)


    This post is the result of what is held in mind in terms of the way we measure things in space and the perspectives we form around it. I am going to jump forward quite drastically and then backwards, and all over the place to gently try and gain perspective in mind, about how we are seeing these picutres Paul shared here and what was gained in terms of understanding the jet in the pictures that was shown in previously.

    So we are given a picture of early history in terms of "the jet" and what is gained in the picture offered us, in how we see. Not only in space perspective and some of the things gathered around it in terms of that space, but ideas, related to how the sparkle of sunshine seems to catch your eye, as it appears quite blindingly to the eye as observation, is realized in a certain way.:)


    A Classical Discription of the Quantum World?


    Here I was introduced to models on the micro perspective views that held a relationship to cosmological design. This was a new way in which to see geometrical idealization, as I engaged early universe, with General Relativity, as it is played out on the cosmological canvas given to us in our pictureof the universe.

    Do you think we can become tainted when our views are microsperspectively organized that the phrase "the Phoenix" is more then the mythical bird born out of mind, but also borne out of the beginnings of this universe? So these people who help us organize our thoughts held my attention.



    Shall we be really critical of the way the eye then sees, and what observations of the universe has allowed us deeper inspection of those early events? These are to be considered, without holding a certain position, as we use model and assumptions gained from insight. Would we discard these models as they push our mnds beyond th ebundaries of the edge, while we understood now that the universe never arose from nothing. It couldn't. Accept it?:)

    So in way, perspective had been pushed to inquire about what can be gained, if we progress these views in a very scientific way. It is the least we can do, if not, we are but assigned some ID'er classification, and suffer, the wrath of mythisms, that we had been purpetrating on a society, without understanding the repercussion?

    Suffered under the point system of John Baez's crackpotism?:)

    It is something that happens, as maturity and age of reason begins to manifest. We have questions about things we do not understand. We can still hold on to our dreams, our artistic inflections and sounds inhernet, with the creative side of us in bloom. We all struggle, yet there is truth to what the intuitive said developed in us, and the "correlation of cognition" as we progress through this science.



    Cognition and purity of thought would be assigned the universal language of mathematics, yet the mathematical mind had been projected into the way it might seen nature, and discribed it for us.

    Concept development, arises from it, and is interwoven into our views of reality. Our conversations of the day, the eyes that bring pictures forward. Current day 's progress of the insight as "pictured measure." Hubble in all it's glory. How so the universe, as it is today around us?

    No it is a gradual thing that we understand as we look at this subject, that it is based on reasoning, that occupies research, and enlightenment, over time. That we would want "not" to mislead in any way. Clear Mind.

    Having this in developing perspective, all one has to do is think of the "early universe" introduction we had gained in association, to know, that blackhole creation in colliders, high energy particles in cosmological collsions, and the concerns now developing, had developed from consequences. John Ellis, or Peter Steinberg introduced us to Pierre Auger and the experiments involved respectively.

    So More on the Final Frontier

    So I began with a term that seems quite relevant to perspective of the public as we were witness to space travel , that we now take that term and use it to push further perspective.



    COSMOLOGY AS SEEN FROM VENICE - Lawrence M. Krauss (2001)

    Probably the most important characteristic of the space in which we live is that it is expanding. The expansion rate, given by the Hubble Constant, sets the overall scale for most other observables in cosmology. Thus it is of vital importance to pin down its value if we hope to seriously constrain other cosmological parameters.

    Wednesday, February 15, 2006

    Big Bang:One Man's Change of Heart

    Thanks Paul

    One definitely needs some perspective around this and how such information is given. I refer here for consideration, about perspective, and how it can be exploited for further consideration on what is emitted, and what manifests in weak gravitational field measure, as neutrino effects(quantum gravity).

    Microperspective and methods of examination, raise the issue fo cerenkov radiation and what it tells us about such interactive phases?

    Here in refractive consideration, ICECUBE, paints a different picture of what began somewhere else in cosmological high energy collisions. "Neutrinos and strangelets" are part of the developing scenario with which the universe has consequences, if held to the initial conditons of our universe. You had to know where to look for these.

    Plato:
    "Nothing" in stated form was and always is "nothing" which would have not allowed any further discussion. "Zero" in our conversation is a much different kind of thinking. I understood that as well. "Zero" would have been the equivalent to "i" in the Dirac's matrices?



    Physics at this high energy scale describes the universe as it existed during the first moments of the Big Bang. These high energy scales are completely beyond the range which can be created in the particle accelerators we currently have (or will have in the foreseeable future.) Most of the physical theories that we use to understand the universe that we live in also break down at the Planck scale. However, string theory shows unique promise in being able to describe the physics of the Planck scale and the Big Bang.


    I wanted to add this post, and to centralize some references that were found that helped form my perspective on "nothing." What! I guess I'm done?:)

    Seriously, this had to be confronted, and who better then from our layman perspectve, then the admission of a leaders in science, who can change theirs mind after some thinking?

    Cosmological Constant SeeSaw in Quantum CosmologyMichael McGuigan

    Lubos shares his perspective on linked section of titled paper above.

    One interpretation of the coupling of Wheeler-DeWitt functions is that it originates from topology changing effects. Topology change seems to be inevitable in quantum gravity. To treat topology change properly is a very complicated calculation using today’s mathematical tools.


    I wanted to add these links here for consideration, as well what link given by Paul for consideration in regards to Penrose, the figure of the man's change of heart that ighlight's this post. In Phase transitions the comments have been quite enlightening.

    Before the Big Bang BBC News, with Stephen Sackur
    Sir Roger Penrose has developed a new theory on what happened before the Big Bang.

    These pages were created by Jack "Turtle" Wong, Spring 1999

  • First of all, how do we think the universe began?

  • The Big Bang theory.

  • Resolving the inadequacies of the big bang theory.

  • The Hawking-Turok Instanton theory: Stephen Hawking's
    ideas.

  • The Hawking-Turok Instanton theory: Neil Turok's ideas.

  • The Hawking-Turok Instanton theory: the result of merging
    two interesting theories.

  • Is the search over?

  • Bibliography / Further Reading


  • See Also:



  • Cycle of Birth, Life, and Death-Origin, Indentity, and Destiny by Gabriele Veneziano

  • Ekpyroptic and cyclical models
  • Monday, February 13, 2006

    Intersection of D Branes

    I'm not going to try and kid you with "this stuff," as it is extremely beyond anything that any of us mere mortal can understand. So, if such a thought would be to simplify, then how would such thinking be attributed to such model building and make it easier for us lay people to comprehend where these people are working in terms of the way they do things.

    What is important is that we can derive some method to this madness:) okay! rather this abstract thinking, to show some kind of similarity in lay people's current thought patterns for easy recognition.

    I'll burn in hell, if I get this wrong, but surely from my "faulty trails (not Tower)" I can be forgiven, until a clearer picture is given to us, that I could revamp all that I said, and leave for you now, the trials and tibulation of a rogue what?:)

    Now you have to think about what I am saying, if you understand indeed, that such a place exists in the picture below, which for us mortals to consider. Think for a minute about the blackhole and where I had been talking in relation to the collider, as well as, the cosmic collisions taking place, with higher energy particles in our own atmosphere.

    Weak field manifestation has particle consideration evident, and we find these here on earth, as neutrinos. Do You see now?

    Physicists Andrew Strominger and Cumrin Vafa, showed that this exact entropy formula can be derived microscopically (including the factor of 1/4) by counting the degeneracy of quantum states of configurations of strings and D-branes which correspond to black holes in string theory. This is compelling evidence that D-branes can provide a short distance weak coupling description of certain black holes! For example, the class of black holes studied by Strominger and Vafa are described by 5-branes, 1-branes and open strings traveling down the 1-brane all wrapped on a 5-dimensional torus, which gives an effective one dimensional object -- a black hole.


    I thought this to be part of the trivial effort with which I had departed to the bulk perspective, without really undertanding how I had got there. Yet I do see in these ways and many things are encompassed within it(gravitonic concentration). I would say, like Clifford telling us about the proper way in which we should move within these mathematical environs, then I would say what a rogue scholar I make, becuase this seems be the bastard child I am whose school is by insight developement, and some of it, wrong of course. But I try.

    Superstrings, black holes and gauge theories


    D-branes are non-perturbative excitations of string theory on which open strings can end. Open strings have gauge fields, so the D-branes define a gauge theory. There is a class of black hole made of D-branes, and these have a quantum gauge theory description. The closed strings define a field theory of gravity.



    PROSPECTS FROM STRINGS AND BRANESA.SEVRIN

    Strings occur in two versions: closed and open strings. Roughly speaking, one has that closed strings carry the gravitational interaction and the open strings carry the gauge interactions. While closed strings can freely propagate in space, the modern point of view is that the end points of open strings are “stuck” on p-dimensional hypersurfaces, where p ∈ {1, 2, · · · , 9}. These hypersurfaces are known as Dp-branes. They are dynamical but they are extremely heavy in the perturbative regime of string theory (their tension or energy per unit of volume is inversely proportional to the string coupling constant): they are solitons. A D0-brane is a point-like object, a D1-brane a string-like object, a D2-brane a membrane, ... Just as a propagating point particle sweeps out a curve – the world-line – in space-time, a Dp-brane sweeps out a p + 1-dimensional volume – the world-volume – in the 10-dimensional space-time. The effective dynamics on the world-volume is then described by a p + 1-dimensional field theory.





    D-branes represent a key theoretical tool in the understanding of strongly coupled superstring theory and M-theory. They have led to many striking discoveries, including the precise microphysics underlying the thermodynamic behaviour of certain black holes, and remarkable holographic dualities between large-N gauge theories and gravity. This book provides a self-contained introduction to the technology of D-branes, presenting the recent developments and ideas in a pedagogical manner. It is suitable for use as a textbook in graduate courses on modern string theory and theoretical particle physics, and will also be an indispensable reference for seasoned practitioners. The introductory material is developed by first starting with the main features of string theory needed to get rapidly to grips with D-branes, uncovering further aspects while actually working with D-branes. Many advanced applications are covered, with discussions of open problems which could form the basis for new avenues of research


    The link below contains over 222 pages, so if you are on Dial-up, you have to think twice about clicking on it. Another of Cosmic Variance's very own.


    D-Brane PrimerClifford V. Johnson
    Following is a collection of lecture notes on D-branes, which may be used by the reader as preparation for applications to modern research applications such as: the AdS/CFT and other gauge theory/geometry correspondences, Matrix Theory and stringy non-commutative geometry, etc. In attempting to be reasonably self-contained, the notes start from classical point-particles and develop the subject logically (but selectively) through classical strings, quantisation, D-branes, supergravity, superstrings, string duality, including many detailed applications. Selected focus topics feature D-branes as probes of both spacetime and gauge geometry, highlighting the role of world-volume curvature and gauge couplings, with some non-Abelian cases. Other advanced topics which are discussed are the (presently) novel tools of research such as fractional branes, the enhancon mechanism, D(ielectric)-branes and the emergence of the fuzzy/non-commutative sphere.

    Sunday, February 12, 2006

    Cosmic Variance's Very Own: Strangelets in 10 or 11

    Cosmic Variance's very own.

    Hewett, Lillie and Rizzo found that if so called micro-black holes, which are smaller than the nucleus of an atom, exist, they can be used to determine the number of extra dimensions. If scientists were to smash two high energy protons together they could theoretically make such a micro-black hole. Such a collision could happen at CERN’s Large Hadron Collider (LHC), which will become operational next year. Once created, the micro-black hole decays quickly and emits over a dozen different kinds of particles such as electrons, neutrinos and photons, which are easy to detect. Using the predicted decay properties of the black hole into neutrinos, Hewett, Lillie and Rizzo solved complex equations to determine if our universe has 10, 11, or more dimensions — perhaps too many dimensions to be explained by critical string theory.


    So what is the experiment that is being produced?

    Using the predicted decay properties of the black hole into neutrinos,

    While I consider the state itself, the thoughts of ICECUBE come to mind. This previous ICECUBE post on this is extremely helpful.

    What is also helpful is to remember what the collision process produces and how we can see this process in relation to cosmic collisions. Not just in the colliders themself. While we might of debated the strange matter below, I enlist the idea of the gravitonc considerations and maybe it is not altogether clear, it is with some satisfaction that such thinking of dimensional attributes are actually given parameters with which to work?

    Strange Matter (12 Feb 2006)

    Some theories suggest that strange matter, unlike neutronium, may be stable outside of the intense pressure that produced it; if this is so, then small substellar pieces of strange stars (sometimes called strangelets) may exist in space in a wide range of sizes all the way down to atomic scales. There is some concern that ordinary matter, upon contacting a strangelet, would be compressed into additional strange matter by its gravity; strangelets would therefore be able to "eat" any ordinary matter they came into contact with, such as planets or stars. This possibility is not considered likely, however.

    Strangelets are thought to have a net positive charge, which is neutralized by the presence of degenerate electrons extending slightly beyond the edge of the strangelet, a kind of electron "atmosphere." If a normal matter atomic nucleus encounters a strangelet, it will approach until it begins penetrating this negatively charged atmosphere. At that point it will start to see the positive electrical potential and be repelled from the strangelet. Sufficiently energetic nuclei, or neutrons (which are unaffected by electrical charges), can reach the strangelet and be absorbed; the up/down/strange quark ratio would then readjust by beta decay.


    See:
    Phases of Matter for Reference

    Exotic physics finds black holes could be most 'perfect,' low-viscosity fluid

    Son and two colleagues used a string theory method called the gauge/gravity duality to determine that a black hole in 10 dimensions -- or the holographic image of a black hole, a quark-gluon plasma, in three spatial dimensions -- behaves as if it has a viscosity near zero, the lowest yet measured.

    It is easy to see the difference in viscosity between a jar of honey or molasses at room temperature and a glass of water. The honey is much thicker and more viscous, and it pours very slowly compared with the water.

    Using string theory as a measuring tool, Son and colleagues Pavlo Kovtun of the University of California, Santa Barbara, and Andrei Starinets of the Perimeter Institute for Theoretical Physics in Waterloo, Ontario, have found that water is 400 times more viscous than black hole fluid having the same number of particles per cubic inch.


    See:

  • Blackhole Creations

  • Strangelets in Cosmic Considerations

  • Cosmic Ray Collisions and Strangelets Produced

  • Microstate Blackhole Production

  • Quark Gluon PLasma II: Strangelets Produced

  • Accretion Disks

  • Strangelets Form Gravitonic Concentrations

  • IN a Viscosity State Production is ?

  • What Are those Quantum Microstates
  • Saturday, February 11, 2006

    History of the Superfluid: New Physics



    Nice Picture above.



    It is really confusing for me sometimes so I have to revisit the set up, to make sure I have things slotted to the way it is being used to penetrate reductionistic views, that help us understand the new physics that emerges from Gold Ion collisions.

    So what is a color glass condensate? According to Einstein's special theory of relativity, when a nucleus travels at near-light (relativistic) speed, it flattens like a pancake in its direction of motion. Also, the high energy of an accelerated nucleus may cause it to spawn a large number of gluons, the particles that hold together its quarks. These factors--relativistic effects and the proliferation of gluons--may transform a spherelike nucleus into a flattened "wall" made mostly of gluons. This wall, 50-1000 times more dense than ordinary nuclei, is the CGC (see Brookhaven page for a letter-by-letter explanation of the CGC's name). How does the gluon glass relate to the much sought quark-gluon plasma? The QGP might get formed when two CGC's collide


    So you say that the particles are supported by the HE4 Superfluid, then how does that energy leak off into the extra dimensions? Hmmmm. As thread unfolds below? What are these strangelets that are catapulted beyond the collider? Porous induced shell casing?

    As well as bringing the accelerator's counter-rotating beams together, LHC insertion magnets also have to separate them after collision. This is the job of dedicated separators, and the US Brookhaven Laboratory is developing superconducting magnets for this purpose. Brookhaven is drawing on its experience of building the Relativistic Heavy Ion Collider (RHIC), which like the LHC is a superconducting machine. Consequently, these magnets will bear a close resemblance to RHIC's main dipoles. Following a prototyping phase, full-scale manufacture has started at Brookhaven and delivery of the first superconducting separator magnets to CERN is foreseen before the end of the year.


    Bose Nova revisited

    I wanted to bring this to the surface again for inspection, as this comes out of the work another fellow and I had discussed at length as we shared perspective on the nature and dynamics geometrically inclined.


    Accretion Disk


    Sometimes, if one does not realized what is governing the thought process, why and how would such things not make some kind of sense. As we move our perceptions ever deeper into the workings of the reductionistic world and find, that these results are being meet in a theoretical sense, as developing well along experimental one too.

    As a layman these views are important to me ,more then the cyncism that pervades the supposed debate on model assumption. While the cynic provides no service other then being that. I have learn to see where the patience and developemental attitude requires a more conducive field of opportunity to bring out the best in each of those scientist that very quickly, the desired approach, is being gone after.

    So herein lies a little history, and the synoptic event that is holding my thoughts today.

    Do the Bosenova

    To set a BEC swirling Ketterle's team shone a rotating laser beam on it while holding it in place with strong magnets. The experiment is like "stroking a ping-pong ball with a feather until it starts spinning," muses Ketterle. The surprising thing was that suddenly, a regular array of whirlpools appeared in the BEC. "It was a breathtaking experience when we saw those vortices," recalls Ketterle. Researchers had seen such whirlpools before (in liquid helium and in BECs) but never so many at once. This array of superfluid whirlpools was exactly the kind of storm system astronomers predicted would swirl beneath the iron crust of a neutron star.

    Evidence for the swirling depths of neutrons stars is based on the fact that some neutron stars are pulsars - the emit a powerful beam of radiation as they spin - like a cosmic lighthouse. The pulses are very regular but occasionally there is a glitch and a pulse might come slightly too early or too late and it is these glitches that are thought to be due to superfluid vortices hammering into the inside of the neutron star's crust.

    Ketterle adds that attractions between atoms in a BEC could parallel the collapse of a neutron star so emulating the distant and massive in the laboratory too. The explosive collapse of a BEC, dubbed a "Bosenova" (pronounced "bose-a-nova") by Wieman releases only a tiny quantity of energy, just enough to raise the temperature of the BEC by 200 billionths of a degree. Supernovae release many times the energy.


    So while I had drawn attention to the process afew years ago that we had discussed, it was important that the very idea of a geometrical process that encompass all the information we currently have, has been filed to specific areas for consideration.

    While the tidbits placed our perspectives all over the map, and held the idealization of the geometry to Feynman's toy models, a greater implication existed that few of realized as we can read about Dirac and the way in which he sees. While I had not been blessed with such a mathematical mind, it seems my vision of things are quite capable, while speaking about reductionistic proceses intuitive roads that lead to the developmental understanding of the nature of the supefuid. A place in which flatspacetime geometry would allow you to consider properties that ask us to explain what this emergent property might be.

    So, if such supersymmetrical idealization was to exist what was this place to say about what began here, or there, in the expression of our universe? Something had to be created that was new to us in our assessment as "new physics." So what was produced? Where did this avenue and funnel allow such an expression that we would look at the bose nova expressing itself, in a model approach.

    Whirling atoms dance into physics textbooks

    Superconductivity is superfluidity for charged particles instead of atoms. High-temperature superconductivity is not fully understood, but the MIT observations open up opportunities to study the microscopic mechanisms behind this phenomenon.

    "Pairing electrons in the same way as our fermionic atoms would result in room-temperature superconductors," Ketterle explained. "It is a long way to go, but room-temperature superconductors would find many real-world applications, from medical diagnostics to energy transport." Superfluid Fermi gas might also help scientists test ideas about other Fermi systems, like spinning neutron stars and the primordial soup of the early universe.


    Historical Perspective
  • Eric Cornell

  • Carl Wieman

  • Wolfgang Ketterle

  • 2001 Nobel Prize in Physics

  • Neutron star

  • M. Coleman Miller




  • Today and the New Physics



    So now that you see that this process is a interesting one, it is necessary to see how such comparative views on a cosmological scale could have been ever immersed in the microperspective.

    This has been my attempt at bringing the place for persepctve into line so that such "new physics" woud have captured the layman's mind. Found the seed bed for new maths, to have created a visionary world that could have arisen from this point on the brane, that such circles, had a greater meaning then one could have ever realized.

    What was happening outside of our colliders that we could speak to what was happening inside of the colliders? This is amazing story, as we now see that events happening with high energy particles, have made themself known in our immediate envirnment to have said what can exist here now in such weak field manifestations, that we had graduated from the normal gravity wave perception GR lead us from, and sent us too?

    Many Holes?

    So now that a cosmological event has captured our mind, the big bang taken us to the first microseconds of our universe, the supersymmetrical view realized, what say we see the possiblility in those new bubbles that arise from Dirac's Sea?

    Each hole while existing within the frame work of a supefluid state madeit possible for us to realize that such expressions would have happen at such micro levels that we had been thinking about how we send our measures to such levels? The new physics is what had been strange to our normal way of thinking and now?

    It would have been my hope that bringing five different people together in the Cosmic Variance scheme of things, would have created the perfect group, as to bringing persepctive and varied opinion together in perception into the family and said how nice that these different perspectives were really one aspect of the whole picture?

    Thursday, February 09, 2006

    Warm Dark Matter

    Having a global perspective using the cyclical model, seem to open some of the ideas about the nature and geometry of this universe as mentioned in article below.

    I have been watching since the earlier days of the jamming session on the train, where individuals who seem to get together, seem to produce this amazing idea in just a short span of time.

    Reference to Aaron's article linked of Steinhardts

    For most astronomical observations the simplest possible choice seems to give an adequate description: the dark matter is primarily made up of elementary particles which are long-lived, cold and collisionless and has been termed cold dark matter. The most direct way to see if this choice is correct is via earth based laboratory particle detectors and several experiments are underway.


    Well what was troubling to me then, was that if you had a age to the universe, let's say 13.7 billion years, then while some like Lubos might refer to Andy Stromingers blackhole issue and living in it, I was somewhat puzzle in ascertions about this geometry and cyclcial nature, that such a idealization could exist in parts of our universe.

    Andy's public lecture

    Lubos Motl:
    Andy answered many questions and some of them have been very frequent questions that follow many similar talks. What is a string made of (nothing else), is it made of matter (no, you would get an F), is it made of waves of space (no), was the Big Bang a black hole (if it were, we are still in it), what can string theory say about the origin of the Universe (not much so far), and so forth


    What events in galaxy formation could be taken back to that beginning, yet the ideal state of affiars held to a flat space time considered and slowing expansive rates of expression? Show relationship to over all nature of this universe in action. Would it not conflict with arrow of time in it's expression, to know that such galaxy formations woud take us back to the birth of this universe?

    What made this equally complicated was that no event in this cosmos, could be older then the 13.7 billions years, yet, we see in nucleosythesis processes, we can do this in our ascertion of of what happened in the first microseconds of this universe? It would mean, no event can be older than?

    If you have a global persepctive on universe cyclical operations, then where are the places that take us to the origins of nucleosysthesis processes (Geometrical inclusion of our own universe)in all galaxy formations? Blackholes?:)

    It would mean all comparative examples of such galaxies would then never be older then the age of the universe, and we run into trouble with the arrow of time?

    Or, can any event that we take to the age of the universe, be a natural process?