Thursday, April 28, 2005
String theorist explores dark energy and our unique 'pocket' of the universe
Stanford physics Professor Leonard Susskind, who is currently on sabbatical and writing a popular book titled The Cosmic Landscape. (Photo courtesy of Stanford University)
Dawn Levy:The dust isn't likely to settle soon. Says Susskind: "More and more as time goes on, the opponents of the idea admit that they are simply in a state of depression and desperation. More and more people are starting to think about this possibility. But it's been a major sea change in the attitudes of theoretical physicists. Â… It means we have a mathematical framework to think about it. We have a basic set of precise concepts to think about it, and it means that in time we will know the truth."
Quantum Entanglement: Do We Need a Radically New Spacetime/Quantum Worldview
I have been thinking hard and heavy about how such information could have been translated from the horizon of a blackhole.
IN post previous post this interaction and thinking has been directed in Gerard 't Hooft focus. In light of Penrose picture below we see where this focus can point our attention on principles of entanglement? Might we have said that there can be such a thing as the calorimetric view within context of the larger picture of relativity, as well as, incorporating this quantum view?
We needed to start from some place and all seem to be happy here as long as we slowly chart this progress, to describing this visual expression of the reality we are moving into. Now we are at the horizon? Particle production and it's inception?
What are the limitations of these views?
Penrose and Quanglement
Entanglement and the New Physics
In the past, teleportation has only been possible with particles of light Image: Rainer Blatt
Issues of Entanglement
IN post previous post this interaction and thinking has been directed in Gerard 't Hooft focus. In light of Penrose picture below we see where this focus can point our attention on principles of entanglement? Might we have said that there can be such a thing as the calorimetric view within context of the larger picture of relativity, as well as, incorporating this quantum view?
We needed to start from some place and all seem to be happy here as long as we slowly chart this progress, to describing this visual expression of the reality we are moving into. Now we are at the horizon? Particle production and it's inception?
What are the limitations of these views?
In the past, teleportation has only been possible with particles of light Image: Rainer Blatt
By taking advantage of quantum phenomena such as entanglement, teleportation and superposition, a quantum computer could, in principle, outperform a classical computer in certain computational tasks. Entanglement allows particles to have a much closer relationship than is possible in classical physics. For example, two photons can be entangled such that if one is horizontally polarized, the other is always vertically polarized, and vice versa, no matter how far apart they are. In quantum teleportation, complete information about the quantum state of a particle is instantaneously transferred by the sender, who is usually called Alice, to a receiver called Bob. Quantum superposition, meanwhile, allows a particle to be in two or more quantum states at the same time
Whether such a "quantum computer" can realistically be built with a value of L that is large enough to be of practical use is a topic of much debate. However, the mere possibility has led to an explosive renaissance of interest in the host of curious
Issues of Entanglement
Wednesday, April 27, 2005
The Calorimetric View?
The Title, might seem somewhat strange, but a issue has developed for me that I see raised in the scourge of other intellectuals, who disavow the extra dimension scenario.
So you have this view and you have this idea of missing energy? Where did it go and where did it come from? Pierre Auger linked previously and the Oh my god particle, raise this idea more in line with the vaster layout of this possibilty.
You see these things are happening around us now, and you needed a much comprehensive view of this compacted dynamcial world? So the methods seen for determination help us to see what is happening in relation not only to particle reductionistic views, but of the relationship happening with Earth and the Sun. Our other Cosmic relations, that move here in the vast network of spacetime contortions that signal informative views from earlier times
ATLAS and the LHC
Describing the strong, weak and electromagnetic interactions in terms of gauge theories, the Standard Model (SM) of fundamental particles and their interactions has successfully explained and predicted many aspects of high-energy particle interactions. However, despite its tremendous successes, it remains theoretically unsatisfactory. The SM cannot answer what is the origin of particle masses, contains a large number of arbitrary parameters, and does not explain why there are so many types of quarks and leptons, among other questions. Perhaps as much as theoretical breakthroughs are needed in order to improve the SM, so are experimental observations on phenomena which can further constrain the SM or may reveal physics beyond it.
The question I raised was in looking at where the missing energy had gone? This is a important question, becuase it speaks to what energy gone in/out, as not being equal? I take it, that all particle reductionistic interpretations would have surmized it's energy value, and then, had something left over that is accoutable? How would you know it's missing?
Now I was looking a Cabi's ole post and from it, this lead me to look at the title of the connected paper for consideration.
A Toroidal LHC ApparatuS
Part of the counterpart of looking at particle creation would have been able to understand the part of the calorimeters that are used to measure the evidence produced. IN this context, it lead me to the Atlas information held at CERN. It also made me think of Glast determinations of early universe indications from the calorimeter located in the Glast satelitte. See the Looking Glast
A Higgs Mechanism for Gravity, by Ingo Kirsch
In this paper we elaborate on the idea of an emergent spacetime which arises due to the dynamical breaking of diffeomorphism invariance in the early universe. In preparation for an explicit symmetry breaking scenario, we consider nonlinear realizations of the group of analytical diffeomorphisms which provide a unified description of spacetime structures. We find that gravitational fields, such as the affine connection, metric and coordinates, can all be interpreted as Goldstone fields of the diffeomorphism group. We then construct a Higgs mechanism for gravity in which an affine spacetime evolves into a Riemannian one by the condensation of a metric. The symmetry breaking potential is identical to that of hybrid inflation but with the non-inflaton scalar extended to a symmetric second rank tensor. This tensor is required for the realization of the metric as a Higgs field. We finally comment on the role of Goldstone coordinates as a dynamical fluid of reference.
Now I have not gone into in detail because I am somewhat slow and a bottom feeder trying very hard to gain perspective of the world these fellows like to deal with.
So the water symbolically speaking, sound manifest, with those inhabiting a dynamical world, speak about the nature of matter constitutions. That come from some state of existance? Here the idea, that it could emerse from nothing (where do the graviton perceptions reside?), is again hard to swallow becuase, "preconstitutional states," had allowed such manifestations to emerge from something? It just seemed logical? Non!
When you think this is going to be the end of it, I thought, I would recap, because I have given the containment(calorimetric) that such particle views, or early universe connections, might have brought forward in detectors methods?
This would have satisfied Peter Woit I am sure, but this view is far from over. The rules have defined a greater context to the issue that points us to the deeper issue of what Gerard 't Hooft might have said was comprehensible features of computerized information consistancies. This would have been far from the truth. Blackhole particle production, would have said hold on? To have this comprehensive view, you needed to include a completed version of the standard model? Without the grvaiton in cvomputerized versions you see where the picture is far completed and you se where the extra dimensiona would have certain features that would have incorporated graviton perceptions in the bulk?
The horizon would have been far from complete had the standard model not included this into the the energy in/out version. This would have been the thread(string) that connected the innner space of the blackhole with the particle production that would have dissipated/exploded in view? How would computerization meet this demand? LIGO?
Posted by
PlatoHagel
at
7:45:00 PM
Labels:
Calorimeters,
CERN,
Dimension,
Earth,
Fly's Eye,
Glast,
Graviton,
Gravity,
Higgs,
Hooft,
LHC,
LIGO,
Nothing,
Oh My God Particle,
Particles,
Pierre Auger,
Quarks,
Sound,
Standard model,
Strange Matter,
Sun,
Symmetry,
Symmetry Breaking
Tuesday, April 26, 2005
The Holographical Mapping of the Standard Model onto the Blackhole Horizon
New paper that came out yesterday written by Gerard 't Hooft
But before I entertain this idea, I wanted to gain some perspective. I was immediately struck by something here that changes the way we have been doing things? Recognizing the blackhole evaporation and standard model production, we are saying that indeed these things already existed in the horizon?
Would M theory have then found it's experimental counterpart? The Bose Nova and Jet idea from collapsing bubbles has been part of the vision I speculated in what Heisenberg saw in the geometrodynamics of a nuclear explosion. See, not only were we detonating a nuclear reaction(gravitational collapse), but we were doing something beyond the perception, by going to the heart of these particle collisions.
What makes it diffuclt for me is that having seen the blackhole dynamics in relation to bubble technlogies, that I like to use as analogies, relate too, and contain the elements of the standard model without ever entering the blackhole? How is this possible and still see the three blane collapse of the blackhole here?
Dimensional Reduction in Quantum Gravity by Gerard 't Hooft
Gerard "t Hooft:No 'Quantum Computer' will ever be able to out perform a 'scaled up classical computer.'
Holding onto the sanity of why such computerization program will run into difficulties, has not undermined the position to included and create opportunities for seeing what is happening at such reductionistic levels? To have wondered, will we gain a dynamcial visulaization of what is happening within the context of the universe as it came into being?
With more computer power, scientists can also include more elements of the Earth's climate system, such as the oceans, the atmosphere, their chemistry and the carbon cycle.
This should make forecasts of future temperature rises more reliable. Keiko Takahashi, who works at the Earth Simulator Centre, says they have already carried out several experiments that look 50 years ahead.
There is difficulties with doing this, and like LIGO or a SEti work in progress, how shall this information allows us to see the interactions in a consistent model? So dealing with these difficulties has been part of Gerard 't Hoofts analysis to see that others too, work hard to deal with issues of information paradox?
Part of this difficulty in computerized model application, would have been transfer rates of information from such quantum levels. Lubos gives some insight here. Although it has been very nice that such visualization techiques could be applied to this data transfer, from what we understand of particle reductionsism. Within context of the larger universe, how detailed shall has our observations become of the world around us?
Gerard 't Hooft recognized this problem and when we see such scattering ideas from blackhole standard model production particles, how shall we see this event in terms of what is sent back for examination? It would mean considering the context of Gerard's paper there is no information loss? No missing energy events?
Thus the consistent model frame, from blackhole production underlying framework would disavow any ideas relating to energy in and energy out imbalance held in context of gravitonic production as part of the standard model production? The horizon area would become a balanced view?
Using the ideas of Clementine and the graduation to Grace, it seemed that I was leading to a good comprehensive view of the bubble technicalities as they contained the missing energy, but moving too "this view of Gerard's" might endanger how we approximate the whole view of this missing energy, with the easy removal of that missing energy scenario? Would this be consistent with the overall encompassed view that the grvaiton has emerged from the extension of this standard model to say oh, it's okay we can remove this and fnd comfort with the existing framework without other contentions issues like missing energy to deal with this?
Do we have Proof of this Missing Energy? If the answer is yes, then the issue has not been resolved?
Interactions between outgoing Hawking particles and ingoing matter are determined by gravitational forces and Standard Model interactions. In particular the gravitational interactions are responsible for the unitarity of the scattering against the horizon, as dictated by the holographic principle, but the Standard Model interactions also contribute, and understanding their effects is an important first step towards a complete understanding of the horizon’s dynamics. The relation between in- and outgoing states is described in terms of an operator algebra. In this paper, the first of a series, we describe the algebra induced on the horizon by U(1) vector fields and scalar fields, including the case of an Englert-Brout-Higgs mechanism, and a more careful consideration of the transverse vector field components.
But before I entertain this idea, I wanted to gain some perspective. I was immediately struck by something here that changes the way we have been doing things? Recognizing the blackhole evaporation and standard model production, we are saying that indeed these things already existed in the horizon?
Would M theory have then found it's experimental counterpart? The Bose Nova and Jet idea from collapsing bubbles has been part of the vision I speculated in what Heisenberg saw in the geometrodynamics of a nuclear explosion. See, not only were we detonating a nuclear reaction(gravitational collapse), but we were doing something beyond the perception, by going to the heart of these particle collisions.
What makes it diffuclt for me is that having seen the blackhole dynamics in relation to bubble technlogies, that I like to use as analogies, relate too, and contain the elements of the standard model without ever entering the blackhole? How is this possible and still see the three blane collapse of the blackhole here?
Dimensional Reduction in Quantum Gravity by Gerard 't Hooft
The requirement that physical phenomena associated with gravitational collapse should be duly reconciled with the postulates of quantum mechanics implies that at a Planckian scale our world is not 3+1 dimensional. Rather, the observable degrees of freedom can best be described as if they were Boolean variables defined on a two-dimensional lattice, evolving with time. This observation, deduced from not much more than unitarity, entropy and counting arguments, implies severe restrictions on possible models of quantum gravity. Using cellular automata as an example it is argued that this dimensional reduction implies more constraints than the freedom we have in constructing models. This is the main reason why so-far no completely consistent mathematical models of quantum black holes have been found.
Essay dedicated to Abdus Salam.
Gerard "t Hooft:No 'Quantum Computer' will ever be able to out perform a 'scaled up classical computer.'
Holding onto the sanity of why such computerization program will run into difficulties, has not undermined the position to included and create opportunities for seeing what is happening at such reductionistic levels? To have wondered, will we gain a dynamcial visulaization of what is happening within the context of the universe as it came into being?
With more computer power, scientists can also include more elements of the Earth's climate system, such as the oceans, the atmosphere, their chemistry and the carbon cycle.
This should make forecasts of future temperature rises more reliable. Keiko Takahashi, who works at the Earth Simulator Centre, says they have already carried out several experiments that look 50 years ahead.
There is difficulties with doing this, and like LIGO or a SEti work in progress, how shall this information allows us to see the interactions in a consistent model? So dealing with these difficulties has been part of Gerard 't Hoofts analysis to see that others too, work hard to deal with issues of information paradox?
Part of this difficulty in computerized model application, would have been transfer rates of information from such quantum levels. Lubos gives some insight here. Although it has been very nice that such visualization techiques could be applied to this data transfer, from what we understand of particle reductionsism. Within context of the larger universe, how detailed shall has our observations become of the world around us?
These images contrast the degree of interaction and collective motion, or "flow," among quarks in the predicted gaseous quark-gluon plasma state (Figure A, see mpeg animation) vs. the liquid state that has been observed in gold-gold collisions at RHIC (Figure B, see mpeg animation). The green "force lines" and collective motion (visible on the animated version only) show the much higher degree of interaction and flow among the quarks in what is now being described as a nearly "perfect" liquid. (Courtesy of Brookhaven National Laboratory)
The goal of the Large Hadron Collider (LHC) is to link roughly 6,000 scientists so they can perform large-scale experiments and simulations to help the world better understand subatomic particles. The grid will ultimately link more than 200 research institutions.
"This service challenge is a key step on the way to managing the torrents of data anticipated from the LHC," Jamie Shiers, manager of the service challenges at CERN, said in a statement. "When the LHC starts operating in 2007, it will be the most data-intensive physics instrument on the planet, producing more than 1,500 megabytes of data every second for over a decade."
Gerard 't Hooft recognized this problem and when we see such scattering ideas from blackhole standard model production particles, how shall we see this event in terms of what is sent back for examination? It would mean considering the context of Gerard's paper there is no information loss? No missing energy events?
Thus the consistent model frame, from blackhole production underlying framework would disavow any ideas relating to energy in and energy out imbalance held in context of gravitonic production as part of the standard model production? The horizon area would become a balanced view?
Using the ideas of Clementine and the graduation to Grace, it seemed that I was leading to a good comprehensive view of the bubble technicalities as they contained the missing energy, but moving too "this view of Gerard's" might endanger how we approximate the whole view of this missing energy, with the easy removal of that missing energy scenario? Would this be consistent with the overall encompassed view that the grvaiton has emerged from the extension of this standard model to say oh, it's okay we can remove this and fnd comfort with the existing framework without other contentions issues like missing energy to deal with this?
Do we have Proof of this Missing Energy? If the answer is yes, then the issue has not been resolved?
Posted by
PlatoHagel
at
7:24:00 AM
Labels:
Analogies,
Black Holes,
Bubbles,
CERN,
Climate,
Earth,
Entropy,
Gluon,
Grace,
Grace Satellite,
Gravity,
Heisenberg,
Higgs,
Hooft,
LIGO,
M Theory,
Particles,
Quantum Gravity,
Quark Gluon PLasma,
Quarks,
Standard model
Saturday, April 23, 2005
Rhetoric and Composition
I hope the time will be taken to patiently read and follow through as it will explain the dangers of what Sokal did, and the mistrust he place at the front door of media control. Censorship.
What were the motivations of people like Peter Woit to highly censor only what he wanted shown in regards to his views, or a Sean Carroll, who might disallow a Lubos Motl that rubs Sean the wrong way?
Both cases, the inherent right of bloggery ownership entitled, what views might be imparted and by this distinction alone, the character? Did this somehow contribute to a finer process of education developement? It certainly as I pointed out retained some integrity, if we thought the derogatory statements were less then appealing to our very natures and constitutions. But did we then censor more then the pride with which we see ourselves?
A little education on the Sokal Affair.
I wrote this in context of another media avenue, but the jest is the same when we think about those who would guard our interest on the internet. From developing in our research and education. I have been less then kind on how I work my compositions and grammar, but I was after the true spirit of information transferance between brains. Any math basis had this derivative function to it, that once math mathematically developed concealled under the larger expression was a scientific validation and objectivity to a long process to develpement.
Of course we say that the ultimate proof is it's validation. But in the mean time, who are they who shall gaurd my interest to follow the correct route to science developement, if debunking has been takng to new heights of arrogance and impedes the further developement of these theoreticcal positions?
What were the motivations of people like Peter Woit to highly censor only what he wanted shown in regards to his views, or a Sean Carroll, who might disallow a Lubos Motl that rubs Sean the wrong way?
Both cases, the inherent right of bloggery ownership entitled, what views might be imparted and by this distinction alone, the character? Did this somehow contribute to a finer process of education developement? It certainly as I pointed out retained some integrity, if we thought the derogatory statements were less then appealing to our very natures and constitutions. But did we then censor more then the pride with which we see ourselves?
A little education on the Sokal Affair.
Modernity is fundamentally about order: about rationality and rationalization, creating order out of chaos. The assumption is that creating more rationality is conducive to creating more order, and that the more ordered a society is, the better it will function (the more rationally it will function). Because modernity is about the pursuit of ever-increasing levels of order, modern societies constantly are on guard against anything and everything labeled as "disorder," which might disrupt order. Thus modern societies rely on continually establishing a binary opposition between "order" and "disorder," so that they can assert the superiority of "order." But to do this, they have to have things that represent "disorder"--modern societies thus continually have to create/construct "disorder." In western culture, this disorder becomes "the other"--defined in relation to other binary oppositions. Thus anything non-white, non-male, non-heterosexual, non-hygienic, non-rational, (etc.) becomes part of "disorder," and has to be eliminated from the ordered, rational modern society.
Now of course I have to contend with some people in order to move forward the issues that I was trying to explain on the Kyoto, that would bring out a debunker that was brain washed, and who was careless about the content, without attacking it's substance.
This brings forth the nature of this thread to further enlighten not only myself, but people who are just plain obnoxious to the truth. A young mind that has wasted his talent on supposely protecting the interest of all us bloggers, forum particpators and who ever the like that would use this internet media.
Now I spoke in regards to this issue about Sokal becuase it cross referenced the issue that I would be leading too, and the relationships that curently are being talked about and developed in science. I use science to help further enlighten myself about how Einsteins views can be seen at work in a developing attitude in regards to the issue of Kyoto Accord. For and/or against.
I saw the content of Sokal generator application and submission as a deliberate attempt to cast doubt on all media and brought out the scum of the internet called debunkers.
Transgressing the Boundaries: Towards a Transformative Hermeneutics of Quantum Gravity
Now you had to understand what Sokal did in order to understand the content of his submission.
The essay you have just seen is completely meaningless and was randomly generated by the Postmodernism Generator. To generate another essay, follow this link. If you like this particular essay and would like to return to it, follow this link for a bookmarkable page.
The Postmodernism Generator was written by Andrew C. Bulhak using the Dada Engine, a system for generating random text from recursive grammars, and modified very slightly by Josh Larios (this version, anyway. There are others out there).
This installation of the Generator has delivered 1586990 essays since 25/Feb/2000 18:43:09 PST, when it became operational. It is being served from a machine in Seattle, Washington, USA.
More detailed technical information may be found in Monash University Department of Computer Science Technical Report 96/264: "On the Simulation of Postmodernism and Mental Debility Using Recursive Transition Networks". An on-line copy is available from Monash University.
More generated texts are linked to from the Communications From Elsewhere front page.
Now that we have discern the nature of the content of the Sokal reference how can we continue with the demands of science. How we measure the effect of Climate, using current technologcal advances? Applcations of these technologies would need to be lead through in order that we understand the science that had been developed.
Sokal instigated mistrust in media, and not the cautious apporach to verification most scientist would expect of delivering a comprehensive and systemic approach to the theoretical developement. They had to have a basis from which to present these views and they, in order to advance science, had to move from the foundations that had already been traversed and, move the mind deeper into these views developed abtractually. The basis of these pictures then was the math developed. The basis was a geometry that lead to a comprehensive view of what Einstein offered for view.
Sokal article was laying waste to all of this beautiful work being done. Brought out the immature debunkers who thought they would help society and instead, turned good people bad.
I wrote this in context of another media avenue, but the jest is the same when we think about those who would guard our interest on the internet. From developing in our research and education. I have been less then kind on how I work my compositions and grammar, but I was after the true spirit of information transferance between brains. Any math basis had this derivative function to it, that once math mathematically developed concealled under the larger expression was a scientific validation and objectivity to a long process to develpement.
Of course we say that the ultimate proof is it's validation. But in the mean time, who are they who shall gaurd my interest to follow the correct route to science developement, if debunking has been takng to new heights of arrogance and impedes the further developement of these theoreticcal positions?
Friday, April 22, 2005
Clementine Project Information
Clementine was a joint project between the Strategic Defense Initiative Organization and NASA. The objective of the mission was to test sensors and spacecraft components under extended exposure to the space environment and to make scientific observations of the Moon and the near-Earth asteroid 1620 Geographos. The observations included imaging at various wavelengths including ultraviolet and infrared, laser ranging altimetry, and charged particle measurements. These observations were originally for the purposes of assessing the surface mineralogy of the Moon and Geographos, obtaining lunar altimetry from 60N to 60S latitude, and determining the size, shape, rotational characteristics, surface properties, and cratering statistics of Geographos.
Look at Clementine and the moon. The way they measured gravity there( the satellite lag)? The geological perspective gained from mapping the moon? The frames of reference are thus quite dynamical when you use this perspective to gain new insights developed from the work of Einstein.
Green Cheese?
The Clementine gravity experiment used measurements of perturbations in the motion of the spacecraft to infer the lunar gravity field
The complexity of measuring events in the cosmos, was to see information contained in what exists around us now. Using various locations they are trying to ascertain simultaneous correspondances in the signals from these cosmological locations, as a well as use the distance between these earth based locations.
Gravity for instance, varies with Time
Gravity is "flavor blind," so when a microscopic blackhole evaporates it produces all the Standard Model particles with equal probability. Once one accounts for spin and color, it turns out that particles produced when a blackhole decays are about 72 percent quarks and Gluons, 18 percent leptons, and the rest are bosons. Such a distinctive shower of particles would be hard to miss. So there is the possibility that the Pierre Auger Observatory will detect blackholes.Page 262, Out of this World, by Stephen Webb
In a complex world of uncertainty this is hard to do, so you look for the ways to see how the cosmic rays create the situations for particle production. So you look for the origins of any number system that began, and how it was used to explain the natural world.
An Excursion into the Dimensions of Numbered Systems
An example here would be using Pascal's triangle. If you "blanket" using resonances pertaining to all number deveopements, then we might understand the harmonies created? Topological movements?
In a euclidean world, the developing geometries will lead somewhere, but how did you every arrive from topological states to euclidean frames of reference? You had to understand the physics process.
So from space to earth, the earth, a final physical state. But you understand that it existed in other states as well? That's where you learn to use the physics.
Posted by
PlatoHagel
at
6:49:00 AM
Tuesday, April 19, 2005
Time-Variable Gravity Measurements
Mean Gravity Field |
The Mean Gravity Field lets us work from this mass understanding and provides for, flunctuations in that Gravity field hence the understanding of Time Variable Gravity Field
On planet Earth, we tend to think of the gravitational effect as being the same no matter where we are on the planet. We certainly don't see variations anywhere near as dramatic as those between the Earth and the Moon. But the truth is, the Earth's topography is highly variable with mountains, valleys, plains, and deep ocean trenches. As a consequence of this variable topography, the density of Earth's surface varies. These fluctuations in density cause slight variations in the gravity field, which, remarkably, GRACE can detect from space.
I wanted to put this into perspective, since we can extend our vision of the gravity field, and how we would look at mass distribution. Using this method, we calibrate, understanding current topological features of hills and valleys that serve to remind us, of the mass distribtuion that has gone on in the formation of our planet Earth.
Since passing over these locations calculations recognize these density valuation of mass regions. This allows us to understand the current gravity standard placed on that location.
Time-Variable Gravity Measurements from the GRACE Satellite
NASA, in partnership with the German Space Agency DLR, launched the dedicated gravity satellite GRACE (the Gravity Recovery and Climate Experiment) in March, 2002. This five year mission will map out the Earth's gravity field to unprecedented accuracy at monthly intervals. The temporal variations in gravity inferred from these data will allow people to study a wide range of processes, cutting across a variety of Earth science disciplines, that involve redistribution of mass within the Earth and at or near its surface. It will be possible, for example, to produce monthly estimates of changes in continental water storage anywhere in the world, averaged over scales of a few hundred km and greater, to accuracies of better than 1 cm water thickness.
I have referrred to the hill and valley perspectives that have arisen in relation to how we see the landscape(earth's). If this feature was not comprehended in some model application, would it not have served to settle minds who see no valuation in such landscape perspectives, as a basis to a much better understanding of the nature of the universe, and the reality around us?
Where has the extra energy gone? For some scientists this question highlights something interesting about what extra dimensions might have implied? You gauge the gravitational fields and learn to see time variability as a feature not just of mass consideration, but of energy determinations as well. It's only fitting?:)
The image above shows the many processes of the Earth’s hydrologic cycle that contribute to total changes in water storage
So setting up a comprehensive understanding of these differences, the mean gravitational field and Time Variable gravity field we see now some relationship to things finer in its constitution, and the relationship to Climate.
The Landscape?
What value might be assigned to this understanding, that we look at how such emissions and its effect on the information gathered. Would we see the effect of civilizations and the way this has effecedt those particular geographical regions.
Have we thus found a legitimate model, that current debates on the Kyoto protocals might serve to get everyone on base for determinations. Will this effectvely change the dialogue currently going on in our assessments, of the needed reduction of CO2 emissions?
Thursday, April 14, 2005
G -> H -> ... -> SU(3) x SU(2) x U(1) -> SU(3) x U(1).
Here, each arrow represents a symmetry breaking phase transition where matter changes form and the groups - G, H, SU(3), etc. - represent the different types of matter, specifically the symmetries that the matter exhibits and they are associated with the different fundamental forces of nature
"Nothing to me would be more poetic; no outcome would be more graceful ... than for us to confirm our theories of the ultramicroscopic makeup of spacetime and matter by turning our giant telescopes skyward and gazing at the stars,"Greene said.
Peter Woit:
Brian Greene was in the audience and somewhat objected to this. Brian's point of view appears to be the more traditional one that people should just try and cook up vacua with as many features as possible close to the Standard Model, and that once they've got such a thing it will have other implications for physics that can be checked. It seems to me that that kind of work has been going on for more than twenty years with no sign of success, but Brian still believes this will ultimately work out.
To me the idea of bubble dynamics is quite revealling when you place the context and question of the dynamics as underlying feelings(this is quite subjective). Much like GR, and these momentus occasions, that can move within our natures, as our comprehension grows. Time experienced in different ways, does this for us?:)It can still be a highly visula thing?:)
To not be mistaken, the questions materializes in the reasons why such dynamics may have been offerred in the same vain as GR, to see that this features becomes a signature of conscious effort, where what is being replaced, reveals some dynamics of the true vacuum?:)
So of course there are questions that need to be resolved. Some might not like to answer them and censor the blog of their own, so that blanket policies regardless of the question, is like who gives a **** about what you think in context of the larger picture of things. Of course they have their own agenda and have the right. It's their blog. I am quite greatful by such resistance presented, has forced me to expand here, where the truth of what I am seeing can be demonstrated.
But I have digressed some from the important question that is raised not only in Serkan's mind but mine as well. So resource info helps in perspective here.
Is QFT vacuum real?
Serkan Cabi:Almost everybody cite the Casimir effect as the proof of reality of quantum ground state of standard model fields. Lately it has become a commonsense especially in the dark energy literature, as an aspect deepening the problem.
So to me looking for an explanation of ths dynamics is a hard one to qualify as it suggested by some, that one wonders about the way early supersymmetrical idealizations have brought consideration to what emerges from these hottimes?
But there are other ways here, that having gotten a grasp of this elasticity of a membrane, that one can see how certain features are held too and others, are presented for further developement in the nature of those same psyches? Imagine introducing this memebrance and the elasticity. What has the mind grasped now?
Below Serkan helps to point out more info for consideration.
The Casimir Effect and the Quantum Vacuum
I have presented an argument that the experimental confirmation of the Casimir effect does not establish the reality of zero point fluctuations. Casimir forces can be calculated without reference to the vacuum and, like any other dynamical effect in QED, vanish as a→0. The vacuum-to-vacuum graphs (See Fig. 1) that define the zero point energy do not enter the calculation of the Casimir force, which instead only involves graphs with external lines. So the concept of zero point fluctuations is a heuristic and calculational aid in the description of the Casimir effect, but not a necessity.
This does not do away with the idea of what can happen within the confines of a vacuum, but ultimately, we realize that the speed of light remains the same, yet other dynamics when playing with physical things, can display wonderful intentions about about this elasticity nature?
Physically, the effect can be interpreted as an object moving from the "false vacuum" (where = 0) to the more stable "true vacuum" (where = v). Gravitationally, it is similar to the more familiar case of moving from the hilltop to the valley. In the case of Higgs field, the transformation is accompanied with a "phase change", which endows mass to some of the particles.
So it is a highly specialize vision that I had been moving towards that I wanted to make sure any bubble technolgies would encase all that we learnt. That we define the further reaches of what this bubble( K=0 before the crunch begins) might have encompassed? Revealled that outer value(K=0) of Friedman's equation and Omega in terms of what critical density would have expounded? In terms of the distance this bubble could grow, in this inflationary universe?
Outside this bubble universe, is a dimensionally filled universe that had grown as this bubble grew?
Such movement in propelling our universe to expression, seems quite a challenge, so having encompassed this larger view of reality, inverse square law would have exemplified the schwarzchild radius, determining the total expansive view of this cosmos?
You had to be able to confine this view and encapsulate it so that the total view developed through the phases of standard model production would have evetually helped us realize the wide scope this particle reductionism and cosmological endeavors had revealled with distances(large and small) joining?:)
Wednesday, April 13, 2005
Collision course creates microscopic 'black holes'
Physics At The End Of The Galactic Cosmic Ray Spectrumwill take place in Aspen, Colorado at the Aspen Center for Physics from April 26 to 30, 2005.
Sean Carroll:
Among other responses to the post about fundamental physics in the U.S., there was a position that one occasionally hears: "Who cares about particle physics, we can just do astrophysics instead, it's cheaper and more fun." I've heard this claim even (especially?) from people who have been experimental particle physicists themselves, and have decided to move into astrophysics. This is actually quite an established career path, although not always the easiest one.
This is ole news with leading ideas to consider. Sean's post also directs some reasoning behind this move to astrophyiscs and the relevance it can play where reductionistic understanding having now, related common bonds for consideration with GR. Have we thus found a way to bring together perspectives that help us realized that we are ever more direct in our pursuate?
By Dan Vergano, USA TODAY
On top of that, spotting many black holes would bolster fashionable theories that explain gravity by suggesting that other dimensions — beyond familiar ones such as height, depth and time — exist "curled up" and hidden in the universe.
Measurements of the black holes and their energies would suggest exactly how many hidden dimensions exist. Even if no black holes turn up, the pair suggest science will benefit from results that poke holes in the extra- dimensions theory.
Many physicists find extra dimensions a distasteful notion. In remarks to an American Physical Society newsletter, physicist Frank Wilczek of MIT called the black hole study a sound way to test an unattractive idea.
"There's no question that the Auger observatory will be sensitive to this signal, if it exists," says Penn State's Stéphane Coutu, a member of the international Auger Observatory team. "We'll definitely look."
Frank Wilczek
Asymptotic Freedom: From Paradox to Paradigm
Figure 1: A photograph from the L3 collaboration, showing three jets emerging from electron-positron annihilation at high energy [9]. These jets are the materialization of a quark, antiquark, and gluon.
Figure 7: A picture of particle tracks emerging from the collision of two gold ions at high energy. The resulting fireball and its subsequent expansion recreate, on a small scale and briefly, physical conditions that last occurred during the Big Bang [1.
This simulation shows a single event, the collision of two gold ions with a center-of-mass energy of 200 AGeV. The color code indicates hits in the various subdetector components as well as indicating the momentum of particles. The image on the top is a perspective view near one end of the detector, looking roughly along the beam axis. The bottom image is a side view of the same event.
Monday, April 11, 2005
Friday, April 08, 2005
Pierre Auger Observatory
In his excellent paper, Louis LePrince-Ringuet, citing a remark of Powell's at the Conference of Bagneres-de-Bigorre in 1953, declared that from that date on, particle accelerators took the place of cosmic rays, which more or less faded into the background. And yet, even today accelerators have not caught up with cosmic rays.
Pierre Auger on Cosmic Rays
"For in 1938, I showed the presence in primary cosmic rays of particles of a million Gigavolts -- a million times more energetic than accelerators of that day could produce. Even now, when accelerators have far surpassed the Gigavolt mark, they still have not attained the energy of 1020eV, the highest observed energy for cosmic rays. Thus, cosmic rays have not been dethroned as far as energy goes, and the study of cosmic rays has a bright future, if only to learn where these particles come from and how they are accelerated. You know that Fermi made a very interesting proposal that particles are progressively accelerated by bouncing off moving magnetic fields, gaining a little energy each time. In this way, given a certain number of "kicks," one could perhaps account for particles of 1018 -- 1020 electron volts. As yet, however, we have no good theory to explain the production of the very-high-energy particles that make the air showers that my students and I discovered in 1938 at Jean Perrin's laboratory on a ridge of the Jungfrau."-- Pierre Auger, Journal de Physique, 43, 12, 1982
On the vast plain known as Pampa Amarilla in western Argentina, a new window on the universe is taking shape. There the Pierre Auger Cosmic Ray Observatory has begun its study of the universe's highest energy particles. These rare messengers should tell an important story about how they originate. Experiments have so far failed to decipher their message, and their existence has become a profound puzzle. The Auger Observatory is attacking this enigma of the highest energy cosmic rays with unprecedented collecting power and experimental controls.
John Ellis:
The next step will again be taken in Japan, with the new J-PARC accelerator starting in 2009 to send neutrinos almost 300 km, again to the Super-Kamiokande experiment, to probe the third neutrino mixing angle that has not yet been detected in either atmospheric or solar neutrino experiments. This may also be probed in a new experiment being proposed for the Fermilab NuMI beam. One of the ideas proposed at CERN is to probe this angle with an underwater experiment moored in the Gulf of Taranto off the coast of Italy, viewing neutrinos in a modified version of CERN's current Gran Sasso beam.
Aussois, Savoie, France
After "Neutrino 2004" the convergence of results from atmospheric, solar, reactor and accelerator experiments confirms the massive neutrino and gives the first opportunity to test physics beyond the Standard Model. The neutrino oscillations picture is still missing 3 fundamental ingredients: the mixing angle θ13, the mass pattern and the CP phase δ.
Future neutrino beams of conventional and novel design aimed at a megaton type detector could give access to these parameters. Such a detector would also be the next generation facility for proton decay searches and an invaluable supernovae neutrino observatory.
To understand the Higgs mechanism, imagine that a room full of physicists chattering quietly is like space filled with the Higgs field ...
So who is the professor that crosses the room? It is Albert Einstein:)
Any such Blackhole would quickly decay into a shower of Hawking radiation (mainly into standard model particles on our brane, rather than into grvaitons into the bulk). This shower of radiation would be quite different from showers arising from, say, the collsion of cosmic-ray proton with a atmospheric atomic nucleus. Gravity is "flavor blind," so when a microscopic blackhole evaporates it produces all the Standard Model particles with equal probability. Once one accounts for spin and color, it turns out that particles produced when a blackhole decays are about 72 percent quarks and Gluons, 18 percent leptons, and the rest are bosons. Such a distinctive shower of particles would be hard to miss. So there is the possibility that the Pierre Auger Observatory will detect blackholes.Page 262, Out of this World, by Stephen Webb
Two of the tanks in the Pierre Auger Observatory are shown. They each hold 12 tonnes of clean water and are viewed by 3 X 8” diameter photomultipliers. The electronics for recording and data transmission are powered by solar cells. These tanks are placed close together so that cross-tank measurements of densities and arrival times can be made but the nearest neighbour for all other tanks is 1.5 km away. In this way 3000 km2 can be covered with only 1600 detectors.
Posted by
PlatoHagel
at
10:08:00 PM
Supersymmetrical Realities
Fusion Power Within Reach?
I was well aware that this is a troubling issue for a lot of people and having found some geometrodynamical explanation and fluidity in coninous expression we had to move our current understanding into the non-euclidean realms.
I have been looking at this process trying to comprehend how this feature of the universe could have ever come into existance? So I was looking for ways to help me determine how such states of existance, at the beginning of the universe could have ever signalled the rebirth of the cosmos and it's potentials.
The Sudbury Neutrino Observatory
Understanding John Ellis's work here in microstate blackhole developement, was part of this view that would direct our questions to the rejuvention process in the reality around us. Any attempts to further define reality in a "negative sense," would run into trouble with supersymmetric valuations to model assumptions?Recognizing the weak field manifestations present in gravity determinations, makes this a interesting idea in face of what we see around in our response to the sun and what energy approaches us, for interactions in these giant baths, or the Auger experiment?
Star In a Jar
I have been following this progress for reasons that would help me understand the geometrical/topological possibilties, such expressions might help in determining these underlying causes as Einstein demonstrated as we moved to Elliptical Geometry of Reimann.
SONOFUSION – FACT OR FICTION?
The fact that we have a bubble cluster (rather than a single bubble) is significant since when the bubble cluster implodes the pressure within the bubble cluster may be greatly intensified [Brennen, 1995], [Akhatov et al, 2005]. Indeed, figure-10 [Nigmatulin et al, 2005] shows a typical pressure distribution (where r = Rc is at the edge and r = 0 is at the center of the bubble cluster during the bubble cluster implosion process. It can be seen that, due to a converging shock wave within the bubble cluster, there can be significant pressure intensification in the interior of the bubble cluster.
As I was saying, to get to these supersymmetrical realities, such convergenances of of sound analogies were quickly adopted as signs of what gravitonic perception might help in distinquishing the concentration and hence cyclication? This would help explain that early universe. This basis of geometric/topological approach was the basis of my exploration, for I see such comprehension necessary in the determination of a consistent method of approach?
This lead to the insight of the nature of the bubble explosions and contrasts to current consideration presented by blackhole radiation. How could this ever become possible to know that the size of ths bubble would have reached a critical point and found entropic issues like expansion relevant to the cooling features of our universe now? CMB was relevant to the state the universe was in and it's curvature, based on Friedmann equations. As to whether or not, such a crunch was emminent.
Once it becomes apparent that we would look for such models for comparing current states of existance with the supersymmetrical realities it was very important to distinquish early uiverse formation to infomration released from supernova explosions. Consder what was what was released into the bulk.
According to Didenko and Suslick, this suggests that chemical reactions would soak up too much of the energy for nuclear fusion to take place, especially for bubbles in volatile liquids like acetone. The molecules of vapour in such bubbles are complex, and would absorb much more energy than the water vapour that they studied. But Suslick does concede that "the possibility of fusion occurring in low-volatility fluids - such as liquid metals and molten salts - cannot be ruled out at this time."
Such topological expressions had me wonder how could such expresssion ever be considered, if we did not have some method in which to ascertain the early universe? Could it have reached supersymmetrical proportions and with this, the cyclical nature of expression. One needed the blackhole for this.
Kenneth Suslick
Researchers Report Bubble Fusion Results Replicated
Controlling the eddies and whirls of the writhing plasma so that it can burst into life as a miniature Sun has been a formidable, and so far only partially met, engineering challenge.
"If we follow the Mast idea and not the Jet one, we could imagine a string of medium-scale fusion reactors instead of a few very big ones," said Dr Sykes
I was well aware that this is a troubling issue for a lot of people and having found some geometrodynamical explanation and fluidity in coninous expression we had to move our current understanding into the non-euclidean realms.
I have been looking at this process trying to comprehend how this feature of the universe could have ever come into existance? So I was looking for ways to help me determine how such states of existance, at the beginning of the universe could have ever signalled the rebirth of the cosmos and it's potentials.
The Sudbury Neutrino Observatory
Understanding John Ellis's work here in microstate blackhole developement, was part of this view that would direct our questions to the rejuvention process in the reality around us. Any attempts to further define reality in a "negative sense," would run into trouble with supersymmetric valuations to model assumptions?Recognizing the weak field manifestations present in gravity determinations, makes this a interesting idea in face of what we see around in our response to the sun and what energy approaches us, for interactions in these giant baths, or the Auger experiment?
Star In a Jar
During a single cycle of the sound field, the pressure exerted on the bubble (green) follows a sinusoidal pattern. The bubble radius (red) expands during the rarefaction part of the sound field and collapses during the ensuing compression. At the minimum radius, a photomultiplier trained on the bubble records a flash of light (blue). The implosion also generates an outgoing pulse of sound detected by a microphone about 1 mm from the bubble, as shown by the spike on the sound wave. The time delay between the collapse and this spike is due to the finite speed at which sound propagates in water.
I have been following this progress for reasons that would help me understand the geometrical/topological possibilties, such expressions might help in determining these underlying causes as Einstein demonstrated as we moved to Elliptical Geometry of Reimann.
SONOFUSION – FACT OR FICTION?
The fact that we have a bubble cluster (rather than a single bubble) is significant since when the bubble cluster implodes the pressure within the bubble cluster may be greatly intensified [Brennen, 1995], [Akhatov et al, 2005]. Indeed, figure-10 [Nigmatulin et al, 2005] shows a typical pressure distribution (where r = Rc is at the edge and r = 0 is at the center of the bubble cluster during the bubble cluster implosion process. It can be seen that, due to a converging shock wave within the bubble cluster, there can be significant pressure intensification in the interior of the bubble cluster.
The physical processes underlying the phenomenon of sonoluminescence have not been clearly resolved by previous measurements. The possibility that sonoluminescence might involve such extreme conditions that it could produce neutrons makes measurements of parameters such as the source temperature, diameter, and density valuable. We report attempts to measure the diameter and duration of single sonoluminescence flashes. For both parameters, our results were limited by the resolution of the instruments, giving upper limits on source diameters of three microns and upper limits on emission durations of twelve picoseconds.
As I was saying, to get to these supersymmetrical realities, such convergenances of of sound analogies were quickly adopted as signs of what gravitonic perception might help in distinquishing the concentration and hence cyclication? This would help explain that early universe. This basis of geometric/topological approach was the basis of my exploration, for I see such comprehension necessary in the determination of a consistent method of approach?
This lead to the insight of the nature of the bubble explosions and contrasts to current consideration presented by blackhole radiation. How could this ever become possible to know that the size of ths bubble would have reached a critical point and found entropic issues like expansion relevant to the cooling features of our universe now? CMB was relevant to the state the universe was in and it's curvature, based on Friedmann equations. As to whether or not, such a crunch was emminent.
The team believes this method can be modified to make the bubble collapse even faster, which would lead to greater light intensities. This would allow physicists to study the relationship between pressure, light intensity and temperature in sonoluminescence in more detail.
Once it becomes apparent that we would look for such models for comparing current states of existance with the supersymmetrical realities it was very important to distinquish early uiverse formation to infomration released from supernova explosions. Consder what was what was released into the bulk.
According to Didenko and Suslick, this suggests that chemical reactions would soak up too much of the energy for nuclear fusion to take place, especially for bubbles in volatile liquids like acetone. The molecules of vapour in such bubbles are complex, and would absorb much more energy than the water vapour that they studied. But Suslick does concede that "the possibility of fusion occurring in low-volatility fluids - such as liquid metals and molten salts - cannot be ruled out at this time."
Such topological expressions had me wonder how could such expresssion ever be considered, if we did not have some method in which to ascertain the early universe? Could it have reached supersymmetrical proportions and with this, the cyclical nature of expression. One needed the blackhole for this.
Kenneth Suslick
When a gas bubble in a liquid is excited by ultrasonic acoustic waves, it can emit short flashes of light suggestive of extreme temperatures inside the bubble. These flashes of light, known as 'sonoluminescence', occur as the bubble implodes, or cavitates. Now Didenko and Suslick show that chemical reactions occur during cavitation of a single, isolated bubble,and they go on to determine the yield of photons, radicals, and ions formed. (Photo credit: Kenneth S. Suslick and Kenneth J. Kolbeck)
Researchers Report Bubble Fusion Results Replicated
Earlier test data, which were reported in Science (Vol. 295, March 2002), indicated that nuclear fusion had occurred, but these data were questioned because they were taken with less precise instrumentation.
“These extensive new experiments have replicated and extended our earlier results and hopefully answer all of the previous questions surrounding our discovery,” said Richard T. Lahey Jr., the Edward E. Hood Professor of Engineering at Rensselaer and the director of the analytical part of the joint research project.
Thursday, April 07, 2005
Cosmological and Microstate Blackholes
Perspectives On Nature's Greatest Puzzles
Nima Arkani-Hamed
:
First rule of progress in science-better to follow your nose, then twiddle your thumbs
My perspectives are elementary generalizations from the views of those at the forefront of theoretcical research into comprehenson of the nature of this cosmo and the ideas of it's cyclical nature. Where else shal we consider this rebirth of sorts but to have been taken to the origins and how we percieve this same universe?
From the general public perspective concepts, which are developing will never make sense, if they did not understand the work that brought these two perspectives together and created this trend to the cosmological pallette for fun, with the theoretical approaches seen in high energy considerations?
Once these views of the cosmological design were contemplated, they revealled a deeper intricacy into the geometry/topological considerations. It was not to far a leap to considered the early universe foundations in the gravitational collapse of those same blackholes, would lead us to the ideas in high energy considerations.
Has the Track Record Been Poven?
Nima Arkani-Hamed:
Our Mantra:
LHC + L.C. will reveal natural theory of weak scale
Once it was understood that such balckhole creation could be idealic produced in the in high energy considerations, the expansive technique to developemental policies quickly reocgnized the diversity? With how the new views would form in minds which had been enaged in string theory. To understand well this covering, that had been placed over all the perspective leading through the standard model comprehension mode. They had discovered the nature of this cyclical universe already?:)
Should this be transcended into allotment of financial gain and to push perspective into the most approrpiate directions? Was it was safe and sound enough in the work that had been moved into the idealization of those same microstate blackholes, then the choice given John Ellis and others would have been far reaching in what direction such courses of event would lead too, into the future.
Having recognized that these trends would now force the move from theoretical design to one of experiementalist having developing proofs , John moves us forward here in the developement phase of cosmological interactions taking place in the field of experience of our earth and it's relation with the sun.
LIGO Translation
But lets not forget the work LIGO has done in transforming our views of the early history. Webber, John Wheeler and Kip Thorne and others, took it upon themselves to orientate the view not once, but many times to see where such progression has lead to the developement of LIGO operations and Detection.
This forced the current trends in string research to produce students that would move this subject into new directions? Now geared to questions of what that gravity might have surmised in its expression and developement. Hence the title of this thread.
Wednesday, April 06, 2005
Symmetry: Dimensions of Particle Physics
I thought it important that I present the infomrtaion that was tied to John Ellis's article in previous thread below and what was happening in regards to Microstate blackhole recognition.
The most energetic particles in the universe have a message for us. The gigantic Pierre Auger Southern Observatory, still under construction in Argentina, is already trying to decipher it.
By Davide Castelvecchi
Most people I have read reveal the silence of common information, as a realization of Blackholes as the cosmological design, we like to play with. But when it comes to testing these extra dimensions, imagine indeed, that such length's we go too, helps us to adjust to what happens around us everyday.
From this conceptualization, much has changed in the propspective views? Staunch supportors of rejection, do not realize what could be implied of the extra energy dissappearing and how you would measure it, in our everyday surroundings?.
I give a philospohical explanation to help explain the realization of how we see in these extra dimensions The earlyhsiory of extending these ideas, calls for more educative functions with those who do not understand this extension and theoretics going out on this limb. Should it be so easily dismissed?
If you do not follow this history, you will never understand what Nima Arkani-Hamed, Sava Dimopoulos, and Gia Dvali been doing with extra dimensions. There is a conceptual feature here that I have spoken too in regards to gravity that few understand.
So as we see Einstein's Bubble, we come to recognize the consistancy with which we would engage information that arises from such bubbles being burst. They give us information about the contents of these spaces, and from such light, we wonder what has been revealled? Cosmologiclaly the whole universe is teaming with the understanding that there can never be this zero function? To have realize it is a very dynamcial process that is continous and cyclical in nature?
Underlying this view of a cyclical nature, is the realization that such events are geometrically/topologically driven and schematically express the whole frame work of this discussion. How suttle it is sometimes, that we would be dismayed by physicists who are speaking about the geometrics/topological functions, to realize they are incorporating the realizations of this contraction/expansive feature, not only in the cosmo, but in how we see into the nature around us now.
Of course this is from a junior mind on these things in terms of education, but hopefully the vsion and eyesight, is well enough that such discriptions displayed, has viable perspectives to share?
Let it Rain
The most energetic particles in the universe have a message for us. The gigantic Pierre Auger Southern Observatory, still under construction in Argentina, is already trying to decipher it.
By Davide Castelvecchi
Most people I have read reveal the silence of common information, as a realization of Blackholes as the cosmological design, we like to play with. But when it comes to testing these extra dimensions, imagine indeed, that such length's we go too, helps us to adjust to what happens around us everyday.
From this conceptualization, much has changed in the propspective views? Staunch supportors of rejection, do not realize what could be implied of the extra energy dissappearing and how you would measure it, in our everyday surroundings?.
I give a philospohical explanation to help explain the realization of how we see in these extra dimensions The earlyhsiory of extending these ideas, calls for more educative functions with those who do not understand this extension and theoretics going out on this limb. Should it be so easily dismissed?
If you do not follow this history, you will never understand what Nima Arkani-Hamed, Sava Dimopoulos, and Gia Dvali been doing with extra dimensions. There is a conceptual feature here that I have spoken too in regards to gravity that few understand.
So as we see Einstein's Bubble, we come to recognize the consistancy with which we would engage information that arises from such bubbles being burst. They give us information about the contents of these spaces, and from such light, we wonder what has been revealled? Cosmologiclaly the whole universe is teaming with the understanding that there can never be this zero function? To have realize it is a very dynamcial process that is continous and cyclical in nature?
Underlying this view of a cyclical nature, is the realization that such events are geometrically/topologically driven and schematically express the whole frame work of this discussion. How suttle it is sometimes, that we would be dismayed by physicists who are speaking about the geometrics/topological functions, to realize they are incorporating the realizations of this contraction/expansive feature, not only in the cosmo, but in how we see into the nature around us now.
Of course this is from a junior mind on these things in terms of education, but hopefully the vsion and eyesight, is well enough that such discriptions displayed, has viable perspectives to share?
Tuesday, April 05, 2005
Einstein's Bubble
If we wanted to understand this motivation and analogy using Einstein's bubble, how could we move this motivation to consider it's first expression, lies wihtin the bath of possibilties?
One needed to see this physics process in its whole harmonious view, to understand that even strings only tells us part of the story. If we disc the supersymmetrical reality, then how will you ever assume that this emergence had to come from some situation. That it is described by recognizing the pre-existing steps that will make this supersymmetrical reality possible for such expressions?
I just wanted to add the following little blurb to show that the idea used here by John Cramer is one that many people like to use when we come to describing things if they contain others ways of describing?
Nathan Seiberg, a colleague of Witten's at the IAS, uses the analogy of blind men examining an elephant to explain the course of string theory until 1995. "One describes touching a leg, one describes touching a trunk, another describes the ears," he says. "They come up with different descriptions but they don't see the big picture. There is only one elephant and they describe different parts of it."The Guardian
So in this context John Cramer takes us through some information for consideration. This is also in context of the Welcher Weg experiment that is introduced on Lubos's site. Had he some search function I am sure he can take us directly to his continue discourse on this topic to help us orientate a better view of the issues. A little nudge again, like he's going to listen to what I have to say, eh?:)
The Blind Men and the Quantum: Adding Vision to the Quantum World
If a photon is detected at Detector A, how does the photon’s wave function Y at the location of Detectors B & C know that it should vanish?
Situation: A photon is emitted from an isotropic source. Its spherical wave function Y expands like an inflating bubble. It reaches a detector, and the Y bubble “pops” and disappears.
One needed to see this physics process in its whole harmonious view, to understand that even strings only tells us part of the story. If we disc the supersymmetrical reality, then how will you ever assume that this emergence had to come from some situation. That it is described by recognizing the pre-existing steps that will make this supersymmetrical reality possible for such expressions?
Afshar has done a variation of the standard two-pin-hole "welcher-Weg" optics experiment, in which he demonstrates that wave interference is present even when one is determining through which pinhole a photon passes. This result is in direct contradiction to Neils Bohr's Principle of Complementarity, which would require in the quantum world that when one is measuring particle properties [formerly read "measuring quantum properties" -KC], all wave interference phenomena must vanish. Afshar's trick is to find the location of the minimum points of wave interference, place one or more wires at these minimum points, and observe how much light is intercepted when one is determining the pinhole through which the photons passed.
I just wanted to add the following little blurb to show that the idea used here by John Cramer is one that many people like to use when we come to describing things if they contain others ways of describing?
Nathan Seiberg, a colleague of Witten's at the IAS, uses the analogy of blind men examining an elephant to explain the course of string theory until 1995. "One describes touching a leg, one describes touching a trunk, another describes the ears," he says. "They come up with different descriptions but they don't see the big picture. There is only one elephant and they describe different parts of it."The Guardian
So in this context John Cramer takes us through some information for consideration. This is also in context of the Welcher Weg experiment that is introduced on Lubos's site. Had he some search function I am sure he can take us directly to his continue discourse on this topic to help us orientate a better view of the issues. A little nudge again, like he's going to listen to what I have to say, eh?:)
The Blind Men and the Quantum: Adding Vision to the Quantum World
Question(Albert Einstein):
If a photon is detected at Detector A, how does the photon’s wave function Y at the location of Detectors B & C know that it should vanish?
Situation: A photon is emitted from an isotropic source. Its spherical wave function Y expands like an inflating bubble. It reaches a detector, and the Y bubble “pops” and disappears.
Monday, April 04, 2005
CERN and Future Experiments
I needed to come back down to earth for a minute to see where the trend is going with those who shall lead us poor earthlings into the future of experimental research and profound understandings.
It would be nice to see perspectives by Lubos, PeterWoit the group here(meaning their blogs), as we look in this direction for a moment? Peter might be able to set his Dirac Moduli space views here?:)
Peter Woit for emphasizing the importance of the Dirac operator on the moduli space of Calabi-Yau four-folds and the importance of string theory to him.
The next step will again be taken in Japan, with the new J-PARC accelerator starting in 2009 to send neutrinos almost 300 km, again to the Super-Kamiokande experiment, to probe the third neutrino mixing angle that has not yet been detected in either atmospheric or solar neutrino experiments. This may also be probed in a new experiment being proposed for the Fermilab NuMI beam. One of the ideas proposed at CERN is to probe this angle with an underwater experiment moored in the Gulf of Taranto off the coast of Italy, viewing neutrinos in a modified version of CERN's current Gran Sasso beam.
So having quickly gone today I went to look at John Ellis site, and was formally introduced to some of the things that have been happening with him and avenues of experimentation that seem very interesting to me.
High Energy Physics Group
The Theory of Cosmic Rays
Cosmic rays, which have historically provided the first tool to study high-energy phenomena, are playing a new role in modern physics. The origin of high-energy cosmic rays, gamma rays and neutrinos is still an open question in astrophysics. On-going and future experiments will give us new information on astrophysical sources and on high-energy processes.
It still retains high energy considerations even in face of LHC questions about particle reductionism and the effects of dynamical interrelations as we see this travel in neutrino functions. I wanted to point to further information here in terms of micro-state black-hole detection. I get this soon.
2004 promises to be an exceptionally exciting year in General Relativity and Gravitation: the LIGO/VIRGO/GEO/TAMA network of detectors has begun generating scientific results, ushering in the era of gravitational wave astronomy. These detectors will search for gravitational wave signals of the collision of black holes, neutron star mergers and other astronomical events previously undetectable. The fundamentally new science of gravitational wave astronomy opens up a new window on the universe. Up until now, astronomy has relied on observations of electromagnetic wave signals (e.g. visible light, radio waves). The detection of gravitational waves offers a completely new perspective on the universe: they will enable us to "hear" the cosmic orchestra as well as to see it! GR17 will provide the scientific community with one of the earliest opportunities to discuss the first scientific results of this era.
I wanted to add a little more information here to further bolster this idealization that I have found in Brian Greene's statement about turning our views skyward in the hope of seeing strings and cosmological thinking in a new way.
Flight of the Phenix
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.
Posted by
PlatoHagel
at
9:48:00 AM
Labels:
astronomy,
astrophysics,
Black Holes,
CERN,
Collision,
Cosmic Rays,
Cosmic Strings,
Dirac,
Earth,
Gamma,
General Relativity,
Gran Sasso,
LHC,
LIGO,
Neutrinos,
String Theory,
SuperKamiokande
Subscribe to:
Posts (Atom)