Catching Nature in Action

To capture the particles emerging from powerful proton-proton collisions at the LHC, scientists design and build huge, massive detectors. The CMS detector, about 50 feet tall, relies on an array of particle detection subsystems. The tracker (the subsystem at its core) records particle tracks with ultrahigh precision. The intermediate subsystem, the calorime-ter, determines the energy of the particles escaping the collision. The outermost devices identify muons, heavy electron-like particles that can travel long distances.

Graphic: CMS collaboration

LHCf is a different type of experiment, using the LHC's protons as a source that simulates cosmic rays. It will study how colliding protons cause showers of particles, in particular photons. Analysis of these showers will aid in the interpretation and calibration of large-scale cosmic-ray experiments, which can cover thousands of square kilometers of ground

See:

The wonders of Quark-Gluon Plasma

Quest For Convincing Evidence?

THE BEVALAC IN WHICH IONS OF HEAVY ELEMENTS, CREATED IN THE SUPERHILAC (TOP), WERE SENT DOWN A BEAM PIPE FOR FURTHER ACCELERATION AND EXPERIMENTAL WORK IN THE BEVATRON

WHEN NUCLEI COLLIDE AND THE ENERGY DENSITY OF THE PARTICLES PRODUCED IS SUFFICIENTLY HIGH, THEN A QUARK-GLUON PLASMA COULD BE PRODUCED

Historical Approach of the Sand Reckoner

I should pave the way for how the thoughts that are unfolding this morning.

But nothing afflicted Marcellus so much as the death of Archimedes, who was then, as fate would have it, intent upon working out some problem by a diagram, and having fixed his mind alike and his eyes upon the subject of his speculation, he never noticed the incursion of the Romans, nor that the city was taken. In this transport of study and contemplation, a soldier, unexpectedly coming up to him, commanded him to follow to Marcellus; which he declining to do before he had worked out his problem to a demonstration, the soldier, enraged, drew his sword and ran him through. Others write that a Roman soldier, running upon him with a drawn sword, offered to kill him; and that Archimedes, looking back, earnestly besought him to hold his hand a little while, that he might not leave what he was then at work upon inconclusive and imperfect; but the soldier, nothing moved by his entreaty, instantly killed him. Others again relate that, as Archimedes was carrying to Marcellus mathematical instruments, dials, spheres, and angles, by which the magnitude of the sun might be measured to the sight, some soldiers seeing him, and thinking that he carried gold in a vessel, slew him. Certain it is that his death was very afflicting to Marcellus; and that Marcellus ever after regarded him that killed him as a murderer; and that he sought for his kindred and honored them with signal favors.

First off, as Plato I understand "the secret" of the Building of the Pyramids. Why and what it means as a model of comprehension about the building blocks of nature.

So "carefully think in conclusion" about what this post means as you near it's end. For I had much more to say about it philosophically, but that would be stepping ahead to "now." :)

Anyway

Many physical quantities span vast ranges of magnitude. Figures 0.1 and 0.2 use images to indicate the range of lengths and times that are of importance in physics.

A lot of people do not understand that if you look to the cosmo, you do not just look at what is evident from observation, but that your observation is increased, as you enhance your perceptions about the "real depth" of that universe.

IN "LHC Factoids," presented by JoAnne of Cosmic Variance, some of the tantilizing ideas about the complexity of the information is being discussed. To me, this presents an opportune time to gain perspective from the "bottom up" discussed by Frank Wilczek .

If the sand is melted into a lense or a diamond, what view had been established by Frank that you might say his lense "is" distorted? If you read the article you understand the context, but until then, what use any "mountain/pyramid to climb" if you did not understand the complexity of the information?

Archimedes met an untimely death while deep in thought, pondering a figure he had drawn in the sand. He did not see the Roman soldier approach, sword in hand. The mosaic portrays this historical event

About Dimension

John Baez's link this morning in his comment is important for a lot of different angles... ummm... reasons?:)

So when you are pointed towards the valuation of all these "sand particles," it not that you want to look like an "ostrich and bury your head in the sand," but that you want to retain perspective on the complexity of the "sand castles" that mathematicans like to build? So you tend to look for the technique concerning the point, breadth and width of the evolving statemntement of the projective geoemtries?

A space is a collection of entities called points. Both terms are undefined but their relation is important: space is superordinate while point is subordinate. Our everyday notion of a point is that it is a position or location in a space that contains all the possible locations. Since everything doesn't happen in exactly the same place, we live in what can rightly be called a space, but points need not be point-like. Any kind of object can be a point. Other geometric objects, for instance, are totally acceptable (lines, planes, circles, ellipses, conic sections) as are algebraic entities (functions, variables, parameters, coefficients) or physical measurements (time, speed, temperature, index of refraction). Even so-called "real" things can be points in a space: people are points in the space of a nation's population, nations are points in the global political space, and telephones are points in the space of a telecommunications network.

So of course you always start off with Euclidean perspective, and work from there. So, you have "one" grain of sand? One raindrop? One string? Okay, you get my point yet?

The beginning of the Universe?

I want people to realize where the strings fit in. I can't help but stress that such advances to "the cause" of what perception is necessary had to start off in a "avenue" like all things, this road leads to the universe we have today.



Because it starts off in the analogy of "the string" makes this feature no less important then the "sargeant major" of Robert Laughlin's condense matter theorist view.

See:

What are those Quantum Microstates-Tuesday, October 18, 2005

A Perspective on Powers of Ten?

Cosmic Rays in Atlas

Like Piglet describing the Heffalump in Winnie the Pooh by AA Milne, one knows this started out in some fantastical world. More then, the "inkblot" as a comparison leads too/from, a fictional story, and became the fantasy of Alice that had already been mathematically set in motion?

So, theree are "ground rules" on using the inkblot in comparison to any microstate blackhole

The flux of cosmic ray muons through the ATLAS cavern can be utilized as a tool to "shake down" the ATLAS detector prior to data taking in 2007.

Additionally, a thorough understanding of the cosmic ray flux in ATLAS will be of great use in the study of cosmic ray backgrounds to the search for rare new physics processes in ATLAS.

Again people like John Ellis lead us to the understanding of what Pierre Auger initiated in understanding this relation of cosmic particles and the issue coming to the forefront, in regards to the microstate blackhole production from these collisions.

It is only today, that I discover the back ground process that was going on here, while it was bein worked out on Sabines's and Stefan's Backreaction site. I didn't relaize I was a "boucing board" from which the "questions in mind" were being initiated. Repeated comments "there" placed here in the comment sections to advance a position on what I thought.

The momenta of the charged particles are measured from the curvature of their trajectories in a magnetic field provided by superconducting magnets. The volume and strength of magnetic field needed are not achievable with conventional magnets.

We use each other as spring boards(nudges) to seeing a little further each time. That is defintiely appropriate to developing a good comprehension of the subject at hand, and creating insight to further information values gained in that research.



See:

Stefan and Sabines Backreaction site on Backreaction: Micro Black Holes

A wonderful resource link to cosmic particles demonstrations

Also my comment at Backreaction, has some more information in the search for understanding on microstate blackholes as well.

Gravitational Radiation

How dry this article in comparison to what we can witness in the cosmo?

One gets this sense of "curvature implied" that the events connected at locations in the universe could have been felt in other locations? What connects them? The spacetime fabric?:)

If one was speaking and one was seeing beyond the observation of the events shown here, then what is there to say if one cannot accept "the language" while they hold to only what they see? No speculation, no theories, no future?

Only, the now?

With the development of quantum mechanics, it was realized that on this scale the protons must be considered to have wave properties and that there was the possibility of tunneling through the coulomb barrier

So while this information exist here now, how does this help you look at events, or is this information lost?

Virial Theorem

A general theorem from the mathematics of physics becomes a useful part of the picture of gravitational collapse. In the context of gravity it can be applied to a finite collection of particles which interact with each other by gravitational attraction. We can attribute to the collection of particles a total gravitational potential energy and a total kinetic energy. The virial theorem states that

Average kinetic energy = -1/2 x Average potential energy
One application of this theorem would be to a known mass of hydrogen gas in a proto-star. If you had a good estimate of the mass of the gas and could measure a sample of particle velocities to determine the kinetic energy, then you could predict the kinetic energy as the gas cloud underwent gravitational collapse. So for a given radius of collapse, you could make a prediction of the temperature of the hydrogen gas in terms of the kinetic energy and could make a prediction about when it would reach the ignition temperature for hydrogen fusion.

Another potential application is to the question of dark matter. If you examine a system of objects out in space and are able to measure the kinetic energy of the system, then you can imply the gravitational potential energy. If the total mass of all the visible objects is too small to give that amount of gravitational potential energy, then the implication is that there is matter there which you cannot see (dark matter). When this has been done for a variety of types of galaxies, there is strong evidence for dark matter (Baez).

Still the connection "is" in the "spacetime fabric" and all events have to be detailed according to some "relation of value in the energy distributed of itself," as we gaze upon the beautiful events within that cosmo?

Gravity-Don't Let it Get You Down

If a inkblot appears on your desk, would you think it appeared in the shape it did to convince you, that what you are "seeing is real?" To you, it may look like someone trying in their attempts to convince you of what a blackhole is?

These questions greatly disturbed Richard Feynman. His famous paper on quantizing general relativity, in which he first described his discovery of the "ghost particles" that eventually played a crucial role in understanding modern gauge field theories, begins with a discussion of the smallness of gravitational effects on subatomic scales, after which he concludes,

There's a certain irrationality to any work on [quantum] gravitation, so it's hard to explain why you do any of it. . . . It is therefore clear that the problem we [are] working on is not the correct problem; the correct problem is: What determines the size of gravitation?

So the fantasy of implying such things as "ghosts" go to the points of what Feynman wants to say? He then shows you this inkblot. Psychologically are you prepared?

Piglet describes the Heffalump,. in Winnie the Pooh by AA Milne.

Why do physicists want to study particles?

A few "cosmic rays" pass through our body every second of every day, regardless of where we are.

They consist of particles created when high energy atomic nuclei (mainly protons) coming from outer space collide with the atoms at the top of the earth's atmosphere. Such particles are not just electrons, protons and neutrons, but also other kinds of particle.

Near the ground, the cosmic rays include muons, similar to the electrons but more than 200 times heavier. Unlike electrons, which live forever, a muon will live about 2.2 microseconds, and then convert into an electron and two neutrinos (electron-neutrino and muon-neutrino; these are like a very light neutral version of the electron and of the muon).

The muons themselves emerge mainly from the decays of other short-lived particles. Some of these particles, called pions, are made from up and down quarks. However, others (kaons) contain a third type of quark, called the strange quark.

Cosmic matter is then made up of more components than the atoms. In addition to the electron, electron-neutrino, up quark and down quark, we have the muon, the muon-neutrino and the strange quark.

Do Blackholes Radiate

The possibility that non-radiating "mini" black holes exist should be taken seriously; such holes could be part of the dark matter in the Universe. Attempts to place observational limits on the number of "mini" black holes (independent of the assumption that they radiate) would be most welcome.

A Distorted Lense?

Gravity dominates the large-scale structure of the universe, but only by default, so to speak. Matter arranges itself to cancel electromagnetism, and the strong and weak forces are intrinsically short range. At a more fundamental level, gravity is extravagantly feeble. Acting between protons, gravitational attraction is about 10^-36 times weaker than electrical repulsion. Where does this outlandish disparity come from? What does it mean?

These questions greatly disturbed Richard Feynman. His famous paper on quantizing general relativity,1 in which he first described his discovery of the "ghost particles" that eventually played a crucial role in understanding modern gauge field theories, begins with a discussion of the smallness of gravitational effects on subatomic scales, after which he concludes,

There's a certain irrationality to any work on [quantum] gravitation, so it's hard to explain why you do any of it. . . . It is therefore clear that the problem we [are] working on is not the correct problem; the correct problem is: What determines the size of gravitation?

Hydrogen, and the Law of Octaves

Alex Vilenkin - Many Worlds in One article by Mark of Cosmic Variance drew my interest again after reading with a new perspective gained from understandng some implications about the "anthropic principle."

Sometimes I even still hold to the idea it is better not to touch this topic because of the greeness with which insight has now taken over. This greeness resides against the reason with which such logic is necessary in regards ot the debate between Susskind and Smolin.

I do not want to be blinded by the razzle dazzle either of men leading this debate, so as to the layman's pursuite of understanding, I hope to show what I am seeing?

While I have not read the book either I am still "drawn to the debate" about what the "anthropic reasoning" is talking about at a fundamental level? Scared yes, and on wobbly legs so I continue.

So as a layman I am curious too ,about views here and what the basis could lead too, in terms of what our universe had become?

If "carbon" wasn't present at the beginning, then how would you explain our universe?

Because the triple-alpha process is unlikely, it requires a long period of time to produce carbon. One consequence of this is that no carbon was produced in the Big Bang because within minutes after the Big Bang, the temperature fell below that necessary for nuclear fusion.

Ordinarily, the probability of the triple alpha process would be extremely small. However, the beryllium-8 ground state has almost exactly the energy of two alpha particles. In the second step, 8Be + 4He has almost exactly the energy of an excited state of 12C. These resonances greatly increase the probability that an incoming alpha particle will combine with beryllium-8 to form carbon. The existence of this resonance was predicted by Fred Hoyle before its actual observation based on its necessity for carbon to be formed.

I too hate the idea of the "law of crackpostism," yet research back to mendeleev table in regards to Newland, raised interesting ideas about the future of testbility?

A "harmonical disseration" about the ways we will in the fuure be able to map the elements in "photonic imagery" devised to work within carbon processes?

What were the ground rules for this universe?

He is best known for discovering the element plutonium, with Edwin McMillan. He led the team that devised the chemical process for extraction of plutonium.

Seaborg served as chairman of the Atomic Energy Commission from 1961 until 1971.

He and McMillan shared the 1951 Nobel Prize in Chemistry for research into transuranic elements.

Having a framework here in which to establish the elemental nature of our universe, how is it that such principals inherent in "string theory" should not direct our attention to what is a viable indicator of what will fill the spaces between, as Mendeleev was able to do in prediction?

While one has been introduce to the "allotopes of Coxeter," it is not without some thought that "planck length," along with the understanding of what "geometrical inhernetness?" qunatum geometry, would also spew forth from the very basis of the beginning of that big bang?

So while I have shown the allotrope here, and dimensional perspective developed, what degrees of freedom say that the space would allow all constants of nature to be described here, and allowed such geometrical principals to form in the bucky ball of carbon, carbon nanotubes?

It was not wihtout directing our attention to the immediacy of that big bang in the microsecond of "planck time" that we are at a loss then?

The last major changes to the periodic table was done in the middle of the 20th Century. Glenn Seaborg is given the credit for it. Starting with his discovery of plutonium in 1940, he discovered all the transuranic elements from 94 to 102. He reconfigured the periodic table by placing the actinide series below the lanthanide series. In 1951, Seaborg was awarded the Noble prize in chemistry for his work. Element 106 has been named seaborgium (Sg) in his honor.

See:

CNO and the Law of Octaves

Allotropes and the Ray of Creation

What is Natural?

Fig. 2. Image showing how an 8 TeV black hole might look in the ATLAS detector (with the caveat that there are still uncertainties in the theoretical calculations).

The question I would pose to those who do not have the dynamical nature of the universe in mind, are you happy with what you are seeing? Is it enough that your measure will be in the value of Steven Weinberg's first three minutes?

Becuase I have taken you down to the microseconds, we can now see of this uiverse, do you think it so unlikely that the very methods for blackhole dyamics would not have include thermodynamic realizations held in context of the issue brought forward by the introduction by Paul of the Conformal Field theory and the issues relate to Penrose?

Of course I jump ahead, based on the current knowledge base I have been able to put together by reading, sharing ideas and learning. So "you see," and "I see" what?

Gamma ray detection is just the beginning of the lesson behind deeper perceptions of our universe and it is in this way that you are taken to view the universe on a much more dynamical level.

But wait, I don't talk lightly of Planck scale and the measure of the square box.

Nature (also called the material world, the material universe, the natural world, and the natural universe) is all matter and energy, especially in its essential form. Nature is the subject of scientific study. In scale, "nature" includes everything from the universal to the subatomic. This includes all things animal, plant, and mineral; all natural resources and events (hurricanes, tornadoes, earthquakes)....en.wikipedia.org/wiki/Nature

On to the Validity of the LHC

I encounter a concept the other day that took me back some. If we intercede and experiment to find the fundamental working associated with "dynamcial thinking" then how could one actually do this, while holding a "cosmological view" to all that we are exposed too in the space, around earth, and beyond?

So of course, while we are being treated to the vast views given to us by Hubble and all the satellites, how much more could we have been satisfied to say, "look at what we have accomplished?"

That is enough for the cosmologist is it not?

In physics, natural units are physical units of measurement defined in terms of universal physical constants in such a manner that some chosen physical constants take on the numerical value of one when expressed in terms of a particular set of natural units. Natural units are intended to elegantly simplify particular algebraic expressions appearing in physical law or to normalize some chosen physical quantities that are properties of universal elementary particles and that may be reasonably believed to be constant. However, what may be believed and forced to be constant in one system of natural units can very well be allowed or even assumed to vary in another natural unit system. Natural units are natural because the origin of their definition comes only from properties of nature and not from any human construct. Planck units are often, without qualification, called "natural units" but are only one system of natural units among other systems. Planck units might be considered unique in that the set of units are not based on properties of any prototype, object, or particle but are based only on properties of free space.

So as strange as it may seem "this concept" held in mind argues the validity of the LHC as a process that is "natural" as it is used to delve into the energies that allow us to see this "cascade of nature as particle manifestations. In this way, we have to support our views on what?

So, we develope instruments to help us look to the very beginnings of creation? We talk about blackholes and we ask, "are these real?"

Microstate Blackholes

What gave us the ability to entertain such concepts that we again ask ourselves, "are these real?" All we had known is that Blackholes exist in nature? So the point I am making is that if you follow the natural costants, what use the microstate in, or as a valuation of what is real in cosmological association?

If, as some suspect, the Universe contains invisible, extra dimensions, then cosmic rays that hit the atmosphere will produce tiny black holes. These black holes should be numerous enough for the observatory to detect, say Jonathan Feng and Alfred Shapere of the Massachusetts Institute of Technology in Cambridge, Massachusetts.

Fortunately while we were being occupied by the news of LHC and all the workers found busy there constructing, there were others who were very busy too. They were helping us see in ways that we were not accustom as well, in regards too, the cosmic particle collisions. Now what use this information if we had thought this avenue not fruitful and necessary?

Nevertheless, astroparticle and collider experiments should provide useful input to the theoretical work in this area. Indeed, the signatures are expected to be spectacular, with very high multiplicity events and a large fraction of the beam energy converted into transverse energy, mostly in the form of quarks/gluons (jets) and leptons, with a production rate at the LHC rising as high as 1 Hz. An example of what a typical black-hole event would look like in the ATLAS detector is shown in figure 2.

If mini black holes can be produced in high-energy particle interactions, they may first be observed in high-energy cosmic-ray neutrino interactions in the atmosphere. Jonathan Feng of the University of California at Irvine and MIT, and Alfred Shapere of the University of Kentucky have calculated that the Auger cosmic-ray observatory, which will combine a 6000 km2 extended air-shower array backed up by fluorescence detectors trained on the sky, could record tens to hundreds of showers from black holes before the LHC turns on in 2007.

Lest the knowledge doesn't serve us then what will be the quest of LHC? What new route to be taken? And it is in this design of measure that we will see something more direct to the basis of what these energy valuations serve?

CLIC is based on a novel technology in which an intense low-energy electron beam is used to generate an electromagnetic wave that is used to push a lower-intensity beam to much higher energies in a relatively small distance. It seems to be the only realistic chance of colliding electrons and positrons at multi-TeV energies so, if it works, it will allay (at least for a while) some of David Gross's concerns about the prospects for future big physics projects-John Ellis

Allotropes and the Ray of Creation

Just thinking here about "life" in general and dreaming.

As well, this takes us back to the article from Backreaction. This post was generated in response to Q's comment and my subsequent statements that I supplied in turn.

Take "full note of Fermion" discription here, as well as, theoretical understanding implied.



Just to note now that the widget on right called Dialogue of Ideas(Dialogos of Eide)supplies the ability to "rightclick" on name and then copy/paste to box ability. This enhances location and response, that you may have further to any topic.

In this regard, Paul's thoughts on the "Reimann Hypothesis" enters here and the undertsanding that this gave to computerized processes the ability to see ULam as the developemental attitude/geometry of the Carbon, which takes on new allotropic forms.



This illustration depicts eight of the allotropes (different molecular configurations) that pure carbon can take:

a) Diamond
b) Graphite
c) Lonsdaleite
d) Buckminsterfullerene (C60)
e) C540
f) C70
g) Amorphous carbon
h) single-walled carbon nanotube

Review of experiments

Graphite exhibits elastic behaviour and even improves its mechanical strength up to the temperature of about 2500 K. Measured changes in ultrasonic velocity in graphite after high temperature creep shows marked plasticity at temperatures above 2200 K [16]. From the standpoint of thermodynamics, melting is a phase transition of the first kind, with an abrupt enthalpy change constituting the heat of melting. Therefore, any experimental proof of melting is associated with direct recording of the temperature dependence of enthalpy in the neighbourhood of a melting point. Pulsed heating of carbon materials was studied experimentally by transient electrical resistance and arc discharge techniques, in millisecond and microsecond time regime (see, e.g., [17, 18]), and by pulsed laser heating, in microsecond, nanosecond and picosecond time regime (see, e.g., [11, 19, 20]). Both kind of experiments recorded significant changes in the material properties (density, electrical and thermal conductivity, reflectivity, etc. ) within the range 4000-5000 K, interpreted as a phase change to a liquid state. The results of graphite irradiation by lasers suggest [11] that there is at least a small range of temperatures for which liquid carbon can exist at pressure as low as 0.01 GPa. The phase boundaries between graphite and liquid were investigated experimentally and defined fairly well.

Ray of Creation

Concept image of a future integrated terabit silicon optical transmitter containing 25 hybrid silicon lasers, each emitting at a different wavelength, coupled into 25 silicon modulators, all multiplexed together into one output fiber.

It is the "archetectual building" that goes on that we may discern the inherent nature of our pursuites? "Ray of creation," is explicit here, in terms of how such building will go on with photonic formation technologies. While imnde th weight of ole structure the sarches hold up an extreme beauty of the churches design? Gravity weight's down with it's burden?:)

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

Mendeleev's world come true, as we think about the "Rainbow of possibilites" in our spectrum, as well as develope the "basis of perception" that grew from "thematic realizations" from our brightest minds?? Carbon based societies, or further geometrics that remain elusive to us??

So what about the geometrics of all this processing? Our pursuites to Gluonic perceptions where such high energy photons will deliver us informative stylizations to the early events in the cosmo? Angle of perpeptions exist, and what does it say about the photon?

Carbon forms the backbone of biology for all life on Earth. Complex molecules are made up of carbon bonded with other elements, especially oxygen, hydrogen and nitrogen. It is these elements that living organisms need, among others, and carbon is able to bond with all of these because of its four valence electrons. Since no life has been observed that is not carbon-based, it is sometimes assumed in astrobiology that life elsewhere in the universe will also be carbon-based. This assumption is referred to by critics as carbon chauvinism, as it may be possible for life to form that is not based on carbon, even though it has never been observed.

"Carbon" at the very beginning of the birthing process? Maybe, just in this universe of ours?:)While, moving to the "photonic base" we delve into the spiritual implications of the "observer's choice" of materiality as a "mass enhancement" of our reasoning?

Carbon was not created during the Big Bang due to the fact that it needs a triple collision of alpha particles (helium nuclei) to be produced. The universe initially expanded and cooled too fast for that to be possible. It is produced, however, in the interior of stars in the horizontal branch, where stars transform a helium core into carbon by means of the triple-alpha process. It was also created in a multi-atomic state

So some will not like the "tunes we play," "the concepts" or the "model enhancements" that are less then "the Theory" that Hooft tells us about in his comments in Lee Smolin's book.

So, we are left with the artistically inclined and those whose "thematic" realizations require them to explain to us this anomalistical nature that apparently is waiting out there for us. It is that we just have to discover/remember it?

But until then, we are supposed to be doing science? Ahem! Apparently, we had be doing naught?:)

I then dream.....:)

Window on the Universe

Michio Kaku:

I like to compare it to wandering in the desert, and stumbling over a tiny pebble. When we push away the sand, we find that this "pebble" is actually the tip of a gargantuan pyramid. After years of excavation, we find wondrous hieroglyphics, strange tunnels and secret passageways. Every time we think we are at the bottom stage, we find a stage below it. Finally, we think we are at the very bottom, and can see the doorway.

One day, some bright, enterprising physicist, perhaps inspired by this article, will complete the theory, open the doorway, and use the power of pure thought to determine if string theory is a theory of everything, anything, or nothing.

Only time will tell if Einstein was correct when he said, "But the creative principle resides in mathematics. In a certain sense, therefore, I hold it true that pure thought can grasp reality, as the ancients dreamed."

An Intermediate Polar Binary System. Credit & Copyright: Mark Garlick

Consider any physical system, made of anything at all- let us call it, The Thing. We require only that The Thing can be enclosed within a finite boundary, which we shall call the Screen(Figure39). We would like to know as much as possible about The Thing. But we cannot touch it directly-we are restrictied to making measurements of it on The Screen. We may send any kind of radiation we like through The Screen, and record what ever changes result The Screen. The Bekenstein bound says that there is a general limit to how many yes/no questions we can answer about The Thing by making observations through The Screen that surrounds it. The number must be less then one quarter the area of The Screen, in Planck units. What if we ask more questions? The principle tells us that either of two things must happen. Either the area of the screen will increase, as a result of doing an experiment that ask questions beyond the limit; or the experiments we do that go beyond the limit will erase or invalidate, the answers to some of the previous questions. At no time can we know more about The thing than the limit, imposed by the area of the Screen.

Page 171 and 172 0f, Three Roads to Quantum Gravity, by Lee Smolin

Now you have to understand something here that the views of those who push our perceptions have gone even further then this, in how we look at the universe. I am showing you work that was progressing from understanding and bringing together what was going on then in 2004, to show you indeed that such an progression has taken place.

I also point out where "Conformal Field Theory" has planted itself, as we look at the images of Bekenstein bound. Such determinations and the roads taken by Strominger point specifically to what we can measure and what we have yet to measure. This did nt relegate any theoretcial view to the "garbage dump" but allowed visionaries to see beyond the SUN/Earth relation in Lagrangian views.

ISCAP will demonstratively help you "adjust your view" in a cosmological re-adjustment that is necessary. Not only from Glast views that arose from some fantasy, but culminates today in the use of a scientific device(calorimeter) for such measures.

In Gamma Ray detection and the Early Universe I point the direction in how Glast in it's preparation has given us new views on how we look at the universe.

Dust torus around a supermassive black hole
The Astrophysical Journal, in an article titled "Integral IBIS Extragalactic survey: Active Galactic Nuclei Selected at 20-100 keV", by L. Bassani et al., published on 10 January 2006 (vol. 636, pp L65-L68).

Meanwhile, the NASA team is now planning to extend his search for hidden black holes further out into the universe. "This is just the tip of the iceberg. In a few more months we will have a larger survey completed with the Swift mission. Our goal is to push this kind of observation deeper and deeper into the universe to see black hole activity at early epochs. That’s the next great challenge for X-ray and gamma-ray astronomers," concluded Beckmann.

Sun Earth Relation

Part of devloping this vision was to see in ways that the Grace satelitte allowed you to see. In what use "climate functions were happening" within the earth's atmosphere how it was being regarded. Time clock functiosn are necessary views, even within this context and such mapping allowed you to see th eearth as it had never been seen before.



No longer is it the surprize of the "first man to step out in space" to see such a blue marble and be aw struck by it's beauty. Now we have progressed in the same views that I allude too beyound what glast has done. Glast is your measure for now. Mine, and others, excell beyond this. As I show you why.

Dr. Mark Haskins:

On a wider class of complex manifolds - the so-called Calabi-Yau manifolds - there is also a natural notion of special Lagrangian geometry. Since the late 1980s these Calabi-Yau manifolds have played a prominent role in developments in High Energy Physics and String Theory. In the late 1990s it was realized that calibrated geometries play a fundamental role in the physical theory, and calibrated geometries have become synonymous with "Branes" and "Supersymmetry".

Now how abtract these views that I will show you to think indeed "theoretcial surmize exists for the potential to push perception." Then, I will give you a real image to ponder, as satellites now progress through this superhighway.

The second of five Lagrangian equilbrium points, approximately 1.5 million kilometers beyond Earth, where the gravitational forces of Earth and Sun balance to keep a satellite at a nearly fixed position relative to Earth.

In order to understand this sun/earth relation, you needed to see beyond what Glast had to impart to you. Yet, I do not say that it is irrelelavnt such experimental fashion to help us see even further. You understand this now?

So now, I'll show you what the universe looks like.

Diagram of the Lagrange Point gravitational forces associated with the Sun-Earth system. WMAP orbits around L2, which is about 1.5 million km from the Earth. Lagrange Points are positions in space where the gravitational forces of a two body system like the Sun and the Earth produce enhanced regions of attraction and repulsion. The forces at L2 tend to keep WMAP aligned on the Sun-Earth axis, but requires course correction to keep the spacecraft from moving toward or away from the Earth.

Now having this perspective in place, I am telling you what this does for perception, had I not carefully taken you through the roads to discovery. What the scale for gravity does for us in our estimation of what that universe actually looks like, when you put on glasses that change the very ideas of how we see.

While you may see refracting of the pencil in a glass of water, you may also see that the grvaiational relation is also apparent inhow we look at the universe?

If you do not think about the force carrier of the gravity then such extension to the standard model will only hold so much for you, while others in vision had been extended far beyond what you are accustom.

A Better Researcher, Not a Cynic...Yessss?:)

Sometimes there are wiser words then my own, to show what is "healthy and happy" with the research into quantum gravity? "A cynic" needs to wipe the spit from their chin, while recogizing what is really going on? We want a well balanced approach.

Approaches to the Quantum Theory of Gravity by the PI Institute

Two methods evolved in the theory of elementary particles to describe such quantized flux tubes. The one, called the loop method, studies them using the basic laws of electricity and magnetism, combined with quantum theory. The second, called string theory, postulates that the quantized flux tubes may be treated as fundamental in their own right, and the laws of electricity and magnetism derived from them.

Many theorists believe that these two points of view are actually equivalent—just different ways of studying the same thing from different points of view. The idea that they are the same is called duality, which here, as in other areas, signals that the same object is being studied with different ideas and methods.

Epic Voyage-The LHC Journey

Couldn't help noticing Lubos's recent article on his blog Frame of Reference, called, "Epic Vessel." Now of course, if presented new opportunities to express ourselves. why does it have to be the way Lubos speaks, about vision being the sea of ignorance, and being limited only by our education?

There is enough information out there now to tell us what preconcieved notions had postulated the means to verification, where now the man on the street may ask, what use this information?

Is it wrong to "think ahead" gaining insight from all that has gone on before us, as we now wait patiently, as so many scientists wait to see, what new lands are discovered.

Susskind, who also appeared in the media with his Strange But True description of the Planck temperature on Thursday, compares the current situation in physics to the late 15th century in which the Atlantic sea of ignorance - analogous to those 15 orders of magnitude of ignorance at the energy scale - became irresistable for curious adventurers.

As soon as I seen this reference to Susskind, and the tile of the post by Lubos I was immediately reminded of John Ellis's article in Symmetry. Now, we have to pay for the article linked by Lubos, so hopefully we will find a way to see what words had been written by Susskind, by the inferences of others.

Times Higher Education Supplement (subscription required) called, Hold fire! This epic vessel has only just set sail...

Of course I recogize Lubos's poinst about the persecution of string/M theory, whilst the brave make their way, ahead of others as they build for the future some comprehensive understanding and means to investigate the New Reality?

The Worldwide particle physics commuity is about to set sail on a voyage into a new world of discovery. The large Hadron Collider, a multi-billion-dollar that begins operations in Europe in 2007, will take us into new relams of energy, space time, and symmetry.

Entering new territory like Christopher Columbus, we have good reasons to think that these new realms conatin"new physics"-a world beuond the Old World of Fundamental particles and forces. Like Columbus, we have expectations about where our journey made lead us. And like Columbus, we do not know how far away the New World may lie, an dour preconceptions may well be completely wrong.

Now why this is of some interest is because of the way the thoughts are held to "maiden voyages", and in this sense, this voyage is a precursor to what we will find after a coniderable length of time, prepping for what the LHC is going to tell us.

Now, here is a SuperNova for Real

The Crab Nebula from VLT Credit: FORS Team, 8.2-meter VLT, ESO



Now the "ultimate proof" is to hold in our hands the matters defined by objects. This is the culmination of all dimensional perspectives, being "condensed to the moment" we hold the stardust samples in our hands. In that case, it may be of a meteorite/comet in passing?

Now we are going back to our computers for a moment here.

Now we know what can be done in terms of computer programming, and what simulations of events can do for us, but what happens, when we look out into space and watch events unfold as they do in our models?

Interaction with matter

In passing through matter, gamma radiation ionizes via three main processes: the photoelectric effect, Compton scattering, and pair production.

Photoelectric Effect: This describes the case in which a gamma photon interacts with and transfers its energy to an atomic electron, ejecting that electron from the atom. The kinetic energy of the resulting photoelectron is equal to the energy of the incident gamma photon minus the binding energy of the electron. The photoelectric effect is the dominant energy transfer mechanism for x-ray and gamma ray photons with energies below 50 keV (thousand electron volts), but it is much less important at higher energies.
Compton Scattering: This is an interaction in which an incident gamma photon loses enough energy to an atomic electron to cause its ejection, with the remainder of the original photon's energy being emitted as a new, lower energy gamma photon with an emission direction different from that of the incident gamma photon. The probability of Compton scatter decreases with increasing photon energy. Compton scattering is thought to be the principal absorption mechanism for gamma rays in the intermediate energy range 100 keV to 10 MeV (megaelectronvolts), an energy spectrum which includes most gamma radiation present in a nuclear explosion. Compton scattering is relatively independent of the atomic number of the absorbing material.
Pair Production: By interaction via the Coulomb force, in the vicinity of the nucleus, the energy of the incident photon is spontaneously converted into the mass of an electron-positron pair. A positron is the anti-matter equivalent of an electron; it has the same mass as an electron, but it has a positive charge equal in strength to the negative charge of an electron. Energy in excess of the equivalent rest mass of the two particles (1.02 MeV) appears as the kinetic energy of the pair and the recoil nucleus. The positron has a very short lifetime (about 10-8 seconds). At the end of its range, it combines with a free electron. The entire mass of these two particles is then converted into two gamma photons of 0.51 MeV energy each.

I wanted to include this information about Gamma Rays first so you understand what happens in space, as we get this information. I want to show you that there is faster ways that we recognize these events, and this includes, recognition of what the spacetime fabric tells us from one place in the universe, to another.

Does it look the same? Check out, "Going SuperNova 3Dgif by Quasar9"

Now, take a look at this below.

Four hundred years ago, sky watchers, including the famous astronomer Johannes Kepler, were startled by the sudden appearance of a "new star" in the western sky, rivaling the brilliance of the nearby planets. Now, astronomers using NASA's three Great Observatories are unraveling the mysteries of the expanding remains of Kepler's supernova, the last such object seen to explode in our Milky Way galaxy

What can we learn about our modelling capabilties, and what can we learn about the events in space that need to be further "mapped?" How shall we do this?

Gamma ray indicators prepared us for something that was happening. Now with this "advance notice" we look back, and watch it unfold?

A new image taken with NASA's Hubble Space Telescope provides a detailed look at the tattered remains of a supernova explosion known as Cassiopeia A (Cas A). It is the youngest known remnant from a supernova explosion in the Milky Way. The new Hubble image shows the complex and intricate structure of the star's shattered fragments. The image is a composite made from 18 separate images taken in December 2004 using Hubble's Advanced Camera for Surveys (ACS).

If advance indication are possible besides gamma ray detection, then what form would this take? Could we map the events as we learn of what happen in LIGO or LIsa operations, and how the "speed of light" is effected in a vacuum?

Now this comes to the second part, and question of indications of information released to the "bulk perspective" as the event unfolds as this SuperNova is.

Bulk:

Note that in the type IIA and type IIB string theories closed strings are allowed to move everywhere throughout the ten-dimensional space-time (called the bulk), while open strings have their ends attached to D-branes, which are membranes of lower dimensionality (their dimension is odd - 1,3,5,7 or 9 - in type IIA and even - 0,2,4,6 or 8 - in type IIB, including the time direction).

Now advancement in model assumption pushes perspective where it did not exist before.

You had to understand the nature of "GR" in pushing perspective, in the way this post is unfolding. Gamma ray indicators, are events that are "tied to the brane" and in this sense, information is held to the brane. The "fermion principle" and identifcation of Type IIA and IIB is necessary, as part of the move to M theory?

Thus when we look at Gamma rays they are not "separate from the event" while the bulk perspective, allows geoemtrics to invade the "new world" beyond the confines of non-euclidean geometries.

As I pointed out, the succession of Maxwell and all the eqautions (let there be light) are still dveloped from the center outwards, and in this perspective gravitational waves wrap the event. Thus the "outer most covering" is a much higher vision and dynamical nature, then what we assume as "ripples in space."

Bulk perspectve is a necessary revision/addition to how we think and include gravitational waves, by incorporating the "gravitonic perception" as a force carrier and extension of the Standard model.

While it has been thought by me to include the "Tachyon question", as a faster then light entity, the thought is still of some puzzlement that this information precedes the gamma ray detection, and hence, serves to elucidate the understanding of our perceptions of the early events as they unfold, as a more "sounding" reason to how we look at these early events?

If those whose views have been entertaining spacetravel, as I have exemplified in previous post, then it was of some importance that model enhancement would serve to help the future of spacetravel in all it's outcomes, as we now engaged, as ISCAP is engaging.

See:

Einstein@Home

LIGO:

A Constant that Isn't Constant?

Now I am wrting this because some are persistent about the speed of light.

I have looked at this and tried to accompany this thinking with actual work that has been put out there, and that has developed along these lines.

I will give a list of links and thiking that I had archived for looking at this issue and explain as best I can what one must look for.

Since the 1930s physicists have discussed whether the constants that appear in the equations for the fundamental laws of physics--such as the speed of light in vacuum and the electron charge--are actually constant. If they have changed over time, nature may have worked in different ways at different times, even if the equations themselves have remained fixed. Modern theories that attempt to unify gravity with the other fundamental forces leave room for such a time-dependence. But it's not easy to look for the effect. If the speed of light were slowly decreasing, for example, we might never know it, because our measuring apparatus might be shrinking at the same time.

John Webb, of the University of New South Wales in Australia, and his colleagues, focused on the fine structure constant, which goes by the Greek letter alpha, because it has no units and is independent of any measurement system. Its current value of roughly 1/137 could not have been very different in the past, as that would have spelled trouble for our very existence. A variation in alpha by more than a factor of ten would imply that carbon atoms could not be stable, and organic life could not have arisen.

So I'll deal first with the Fine Struture Constant and what I have got here. Stories in the news reflect at a fundamenatl level what is going onin the society of scientists? Whether a journalistic flavour is good or not, the basis of these myths propogated, if they are ever relegated to the "weird" or something not quite right, then one questions whether such journalistic behavior is very good?

But like myths, we look past the haze and fog to try and discern why such impulse and flavour was ever drawn to the topic at hand, and what is really going on in the society of scientists.


Change's in the Fine Structure Constant?

The world's most precise atomic clocks are now made from "atomic fountains". A gas of atoms within a vacuum chamber is trapped by a set of intersecting laser beams and cooled to a temperature close to absolute zero. The ball of atoms is then tossed vertically into the air by changing the frequency of the lasers and it passes through a microwave cavity on its way up and also on its way down as it falls under gravity. The whole process is then repeated.

Part of this attraction for me, was what was called "resonance curve."

So let's move on here.

As Van Den Broeck concludes: "

The first warp drive is still a long way off but maybe it has now become slightly less improbable.

"

An idea for achieving faster-than-light travel suggested by the Mexican theoretical physicist Miguel Alcubierre in 1994.1 It starts from the notion, implicit in Einstein's general theory of relativity, that matter causes the surface of spacetime around it to curve. Alcubierre was interested in the possibility of whether Star Trek's fictional "warp drive" could ever be realized. This led him to search for a valid mathematical description of the gravitational field that would allow a kind of spacetime warp to serve as a means of superluminal propulsion...

But there was a problem for me as I looked at this. I mean, if something is to attain the "speed of light" what happens to the ship? Of course along the way you meet people and learn things, and they extend the thinking.

Does it change what we know?

The ESAA group was founded with the ever present human nature of exploration in mind. The ultimate goal of the group is to physically explore the outer most human reaches, with an emphasis on intellectual exploration to achieve such goals. ESAA was founded by Fernando Loup, Edward Halerewicz, and David Waite to begin investigations into plausible methods to probe the outer reaches of known science. Fernado Loup a mathematician by trade was interested in exploring mathematical possibilities which may allow for superluminal travel. Edward Halerewicz a beginning physics student was primarily interested in popularizing advanced physical theories to encourage "outside the box thinking." David Waite a seasoned physics student was also interested in exploring the limits of known science and kept radical proposals grounded in real world physics. These three thinkers came together and discussed a recent theory within general relativity which would allow for serious superluiminal discussions.

Here is more on the Group which is now called "Stardrive.

Don't tell Lubos, because he does not accept his Martian ancestry. :)Am I a Et Alien?

"


Background on ESAA-Now Stardrive

Paul Karl Hoiland - Feb 10, 2004 7:20 am

In 1994 a Mexican mathematician, Miguel Alcubierre, discovered solutions to Einstein's equations which allow warps in the space-time metric to travel faster than the speed of light. But the proposal Dr. Alcubierre made was unrealistic on three basic grounds:

1.) It required a huge amount of negative energy. 2.) It displayed no casual connection of the ship with the field itself. 3.) The exotic energy states involved violated certain quantum energy conditions like the AWEC.

The ESAA group was founded with the ever present human nature of exploration in mind. The ultimate goal of the group is to physically explore the outer most human reaches, with an emphasis on intellectual exploration to achieve such goals.

ESAA was founded by Fernando Loup, Edward Halerewicz, and David Waite to begin investigations into plausible methods to probe the outer reaches of known science. Fernado Loup a mathematician by trade was interested in exploring mathematical possibilities which may allow for superluminal travel. Edward Halerewicz a beginning physics student was primarily interested in popularizing advanced physical theories to encourage "outside the box thinking." David Waite a seasoned physics student was also interested in exploring the limits of known science and kept radical proposals grounded in real world physics. These three thinkers came together and discussed a recent theory within general relativity which would allow for serious superluiminal discussions.

These discussions were opened in December 2000 to all that were interested within a yahoo discussion forum called the "Alcubierre Warp Drive" Club, named for the proposed superluimnal theory. The active members of the yahoo club then christened a name for themselves which became ESAA. The name ESAA was created by a club supporter named Simon Jenks, which is a Greek acronym for E Somino Ad Astra, or "From a Dream to the Stars." ESAA is an open and diverse group of individuals who are interested in seeking out nature's secrets to make some of mankind's most profound dreams come true.

The ESAA group consist of physicists, mathematicians, engineers, students, and layman whose members are spread throughout the globe. All members have an equal say on group developments and collectedly the group has worked on three separate modifications to "Warp Drive" theories alone. In more recent times Dr. Paul Hoiland has become a valuable member of the ESAA group. Bringing much needed experience and wisdom to the group as well as creating the Journal of Advanced Theoretical Propulsion, based on the ESAA philosophy.

ESAA History on the Warp Drive

The online discussion forum the Alcubierre Warp Drive, began as a novel experiment, where members would answer questions that interested parties had for the new science. The early discussions within the Alcubierre Warp Drive began with philosophical debates, random brain storming, and slowly evolved to include mathematical discussions. It was during this new phase where Waite joined the club discussion, and we carefully began discussing the ramifications of his proposed warp drive. Unfortunately as soon as the mathematics became the bulk of the discussion, most of the philosophical debates were lost, but at this point Fernando Loup and Edward Halerewicz began to describe the possible consequences of Waite's space-time. During the discussion of Waite's idea the club was very grateful to receive advice and guidance from the very busy but gracious Dr. Alcubierre. And it was at this point that simply entertaining the idea of a new warp drive became a much more formal process, and a new theory of its own right began to form.

The three early founders put together a paper which tried to levitate some of the problems with the "Alcubierre Warp Drive," (gr-qc/0009013) specifically reducing the amount of negative energy required within the theory. The paper was posted at the LANL ArXiv and was entitled "Reduced Total Energy Requirements for a Modified Alcubierre Warp Drive Space-time" (gr-qc/0107097). The paper also was not accepted for publication in established journals do to the inexperience of the authors in writing for academia. Also the paper was later found to have a few problems, e.g. the lapse function used to lower the energy requirements distorted time within the "warp bubble."

Since the energy problem was dealt in more creative ways such as varying the warp bubbles parameters as suggested by Chris Van Den Broeck (gr-qc/9905084), the ESAA group decided to attack another problem. One of the problems raised with the Alcubierre Warp Drive was that its superluminal nature would be impossible to control. If this were the case then using Warp Drives for superluminal travel would be out of the question, new members joined the ESAA group and decided to construct another paper.

The group wanted to know how superluminal motion would affect null geodesics and how this might be used as a clue to have control with a superluminal warp drive. The second paper put fourth by ESAA was entitled "A Causally Connected Superluminal Warp Drive Space-time (gr-qc/0202021), which proposed varying null geodesics to counter the superluminal problem. With this work several esteemed physicists gave there opinion on the paper, they largely argued against it because horizons will always form with superluminal motion. However ESAA argued against this reasoning as the horizons are still present they are simply moved by a dual light cone interpretation for space-time, the horizons just occur at another place. Expert opinion on this matter was that even if that held up, we couldn't show that a dual light cone interpretation is possible.

From this point ESAA has had some heated arguments, which gained some enemies and made a few friends. It was however mutually agreed that such a paper would never be accepted in an existing journal and so no additional publication was pursed on this paper.

The next paper proposed by the ESAA group was a paper to explore how Warp Drive space-time affect the geodesics of photons. From Alcubierre's original paper it is not to difficult to realize how the geodesics of photons become affected as was shown by Clarke, et. al (gr-qc/9907019). However a Portuguese researcher named Jose Natario showed that energy of the photons distorted by a warp drive would be lethal if traveling near the speed of light (gr-qc/0110086). This proved to be troubling as the popular press picked up on it as being the "Warp Drives are impossible," so ESAA decided to show how Warp Drives could still be possible with these "lethal" photons. It was found that a properly chosen dynamic space-time in several layers could act to slow the dynamic nature of the photons.

This solution ESAA proposed was entitled "On the Problems of Hazardous Matter and Radiation at Faster than Light Speeds in the Warp Drive Space-time" (gr-qc/0207109). However some of the excited authors mistook the slowing dynamics for velocity, when in reality it is the energy that is reduced, so the photons are non lethal.

Further inspection by ESAA and others have shown the lethal photons are fictitious as they exist with a Cauchy Surface, the photons energy doesn't change in the "warp bubble." There's just a frequency shift caused by the Cauchy region, since there is little interest in Warp Drives do the "toy" Alcubierre model ESAA has been slow in correcting this error. For these reasons this paper has not been considered for further publication, but again have shown that warp drives are mathematically feasible. However the ESAA solution dubbed a "shield" from its science fiction counter part does indicate the possibility of a dual light cone region as suggested by the second work which might warrant further investigation.

There were questions then too about the "specific design of the ship" and the group wondered. What designs did they come up with?



Doctor Paul Karl Hoiland - Jan 27, 2004 4:26 pm

Fernando's general idea was to use certain effects to escape off the brane. But while his proposed testing of such with high energy particles could open the door to testing out aspect of the RS model in general, he basically discovered that it does not allow matter to escape the brane. I'm not sure who exactly pointed this out to him since he tended to exit our group again. During his time in our group I had discovered what he was looking at was a brane lensing effect. In studying such I discovered it modifies gravity and the path of particles on and off the brane.

In the case of the extra dimension the length or volume is determined by the bulk cosmological constant(1) on both a local and global level. Gravity becomes higher dimensional at scales where

1/r ¨ 1/r^1+N.

But little has ever been mentioned of its modification of the on the brane Minkowski metric as well as the AdS one. Generally, what Fernando had noticed is that if you adjust the local Israel condition you can change the "warp factor" and that regular positive matter can adjust this. Its almost a pity he withdrew that third paper from GRG. With a bit of modification he had a perfect way to alter gravity in any local region which would have been a great test bed for certain Brane Models in general even if it did not support his hyperdrive idea.

I think after looking at this idea one could achieve what to a remote observer was faster travel times even though you never exceed C in the local frame. It literally was the original ST style warp drive. You could travel through a Universe that is smaller with no violations of the laws of physics in either the local or remote region.

Dr. Paul seems to have removed his links from one location to the next? Well, there are other names that can be followed up, if one thought to pursue this further.

So what was Dr. Paul refering too?

See:

It is shown that our 3 + 1 Brane Einstein Universe is a trapped shell in a Higher Dimensional spacetime (Bulk). It is also shown that the Israel Condition acts like a pressure to trap matter in Einstein's Universe, and that if we overcome this pressure, we can make a particle leave Einstein's Universe and enter the Bulk. The conditions that allow the entrance to the Bulk permit its use to send signals or particles faster than the speed of the light, when “seen” from the Brane due to Brane Lensing. However, in the Bulk the particles remain subluminal. Our model differs from all the standard Braneworlds models, because all matter is trapped in this 3 + 1 Einstein Shell, independently of what the Standard Model might impose. What we propose is a new Braneworld Model using some of the features of the Chung-Freese Model, plus a way to overcome the pressure from the Israel Condition. Our model will remotely resemble the Davoudias Hewett, Rizzo modifications made to Randall-Sundrum Model that allow fermions (not only gravitons) to enter the Bulk, although we must outline that we are proposing a different idea.

Non-Orientation of Space-Time Proves M-Theories Compacted or Embedded Regions

Dark Matter Discovery Announced by Nasa

Q relayed some information between B and Sean, so I thought I would follow up.

One thing that is forefront of my mind here, is lensing, and how photonic expression of the event is govern by the inclinations of gravity. Held to the event. Evidence of this event is then "scattered" throughout the universe?

So how shall we look "back to a time" and then not wonder how we have been held to illusions of what the photon is doing in this "gravitational field" while the events themself unfold?


(Credit: NASA/STScI/G. Bacon)

In the overview of the universe in expression, it is good to see the "new updated versions" of what is entailed in the universe in that flash. I say it is never without the complete view of the standard model and it's extensions, that all it's expressions in such a flash unfolding, would have these things inclusive?

So Gravitons as well.

So how shall we see such "condensation of results" lead from such gathering of gravitons as we look at the events unfolding in this example?

Maybe some more research for myself here, as to what dark matter is?

The hot gas in each cluster was slowed by a drag force, similar to air resistance, during the collision. In contrast, the dark matter was not slowed by the impact because it does not interact directly with itself or the gas except through gravity. Therefore, during the collision the dark matter clumps from the two clusters moved ahead of the hot gas, producing the separation of the dark and normal matter seen in the image. If hot gas was the most massive component in the clusters, as proposed by alternative theories of gravity, such an effect would not be seen. Instead, this result shows that dark matter is required.

I haven't been following the results nor the conversation from the annoucement. But now that I have, what will come from reading it?

I'll take a look.

CXC: What's your interest in dark matter? Why is it important to understand the behavior of dark matter?

MM: The nature of dark matter is one of the most important topics in astronomy, so everybody is interested. Little is known about it -- all that the numerous searches for dark matter particles have done is ruling out various hypotheses, but they never got any "positive" results. So any new piece of evidence is valuable.

At What "Point" does the Universe Make itself Known?

According to the basic laws of physics, every wavelength of electromagnetic radiation corresponds to a specific amount of energy. The NIST/ILL team determined the value for energy in the Einstein equation, E = mc2, by carefully measuring the wavelength of gamma rays emitted by silicon and sulfur atoms.

This, was encapsulated in a "point before time and space(?), that explodes again into your mind, as if some universe coming into being? How could that "be?"

Like a bubble perhaps, or like a universe that has reached it furthest reaches, collapses again, and where does the universe lead us, but back to "this point"?? Some event that has unleashed it's potential and spoke about the geometrics of, and we found that it lead back to "the time" where the universe again began?

When primary cosmic rays collide, what allowed the secondary particles to emerge? What is cerenkov light emitted? ICECUBE.



They can trace back the gamma rays to the original source? The gamma rays are not affected by the magnetic field? This allows them to trace back the history of the particles back to the original source? How do "they know" where it came from?

There was a time when the realization existed that particle creation had no relation to what the universe did in it's first three minutes of Weinberg? Now, it has become Microseconds? Are you convinced now?

Let's assume that you are, so what allowed us to go back to what any moment could be produced given the right set of circumstances? That what is out there is is also inside?

We had to be able to go back to the beginning of the universe did we not?

So what use models serve if they can not be applied at many levels and now we see the trail of young theorists move to other realms, sociologically driven, where their abilities are better used on wall street or the likes, because it just didn't make sense anymore to try and delve into it.

Everyone knows that human societies organize themselves. But it is also true that nature organizes itself, and that the principles by which it does this is what modern science, and especially modern physics, is all about. The purpose of my talk today is to explain this idea.

Or to see the science used in a destruction of a kind, that it's reverberation magnified tens of times, could be used from one plane load? Laughlins "exemplified page" is forever haunting in what these magnifications can become from a condensed matter theorist point of view?

So how do ideas enter the mind? You create the Blank slate and endeavour to write the formula for aspects of creation? What "energy values" are these?

Many physical quantities span vast ranges of magnitude. Figures 0.1 and 0.2 use images to indicate the range of lengths and times that are of importance in physics.

But it's more then that, to think that the energy chaotic, is in it's extremes, would have no "organizational skills" to begin to manifest itself in it's very guises, that one might ask, "what use any energy put too?"

So this becomes the pattern? A Pattern of destruction?

No, not always. It can become a pattern for peace.:) A balance found(?) of the exchange, that "things" could be in a state of "becoming?" Allows yo to move inthe world in a different way. You can grow, as you extend the antenna out there, and allow what is out there to come inside?