Friday, June 17, 2011

TAUWER Test


TAUWER is a proposed astroparticle experiment to detect ultrahigh energy TAU neutrinos, using detector towers arrayed on a mountainside looking down into a valley. This test is to study the possibility of replacing Hamamatsu miniature PMTs with SiPMs for readout by determining the response of scintillation detectors with SiPM readout to low energy electrons, 2 GeV or lower, as the beam will provide. The detector itself is a compact package, previously used in a parasitic test beam run on December 15, 2010, to compare the relative timing of the signals from three counters for Minimized Ionized Particles.

The experiment will take some electron data with 1.5 cm of Pb in front of counter 2 or counter 3, and without the Pb for calibration purposes. The three scintillators are 0.7, 1.4, and 0.7 cm thick, each 19 x 19 cm square. Each has a single SiPM readout, seen in the picture. The SiPM operating voltage is 34 volts. This is introduced by BNC cables from power supplies in the electronics area. The red and white wires adapt the BNC cable to separate power and ground leads for the center counter. The SiPM signals are taken on RG174 cables to a local waveform digitizer (DRS4) adjacent to the optical box. The DRS4 is controlled by a PC located in the beam enclosure, operated remotely from the control room.
Name of Experiment:TAUWER Test

See Also: TAUWER aims for cosmic heights

Wednesday, June 15, 2011

A Conformal Field Theory Approach?

Using the anti–de Sitter/conformal field theory correspondence to relate fermionic quantum critical fields to a gravitational problem, we computed the spectral functions of fermions in the field theory. By increasing the fermion density away from the relativistic quantum critical point, a state emerges with all the features of the Fermi liquid. See:String Theory, Quantum Phase Transitions, and the Emergent Fermi Liquid





Spacetime in String Theory
Dr. Gary Horowitz, UCSB
.

Conformal Field Theory

A conformal field theory is a quantum field theory (or statistical mechanics model at the critical point) that is invariant under the conformal group. Conformal field theory is most often studied in two dimensions where there is a large group of local conformal transformations coming from holomorphic functions.

If your not sure what I mean,  have a look at what is happening on the surface of the sphere, as a means from which  a 2D description,  is describing the black hole in a 5d space. Have you seen this image before?

String theorists describe the physics of black holes in five-dimensional spacetime. They found that these five-dimensional objects provide a good approximation of the quark-gluon plasma in one fewer dimension, a relationship similar to the one between a three-dimensional object and its two-dimensional shadow. Image: SLAC National Accelerator Laboratory
Recreating the conditions present just after the Big Bang has given experimentalists a glimpse into how the universe formed. Now, scientists have begun to see striking similarities between the properties of the early universe and a theory that aims to unite gravity with quantum mechanics, a long-standing goal for physicists.
“Combining calculations from experiments and theories could help us capture some universal characteristic of nature,” said MIT theoretical physicist Krishna Rajagopal, who discussed these possibilities at the recent Quark Matter conference in Annecy, France.

One millionth of a second after the Big Bang, the universe was a hot, dense sea of freely roaming particles called quarks and gluons. As the universe rapidly cooled, the particles joined together to form protons and neutrons, and the unique state of matter known as quark-gluon plasma disappeared.See: String theory may hold answers about quark-gluon plasma
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Bekenstein Bound 


TWO UNIVERSES of different dimension and obeying disparate physical laws are rendered completely equivalent by the holographic principle. Theorists have demonstrated this principle mathematically for a specific type of five-dimensional spacetime ("anti–de Sitter") and its four-dimensional boundary. In effect, the 5-D universe is recorded like a hologram on the 4-D surface at its periphery. Superstring theory rules in the 5-D spacetime, but a so-called conformal field theory of point particles operates on the 4-D hologram. A black hole in the 5-D spacetime is equivalent to hot radiation on the hologram--for example, the hole and the radiation have the same entropy even though the physical origin of the entropy is completely different for each case. Although these two descriptions of the universe seem utterly unalike, no experiment could distinguish between them, even in principle. by Jacob D. Bekenstein
                                                                                ***


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

*** 



Juan Maldacena:
The strings move in a five-dimensional curved space-time with a boundary. The boundary corresponds to the usual four dimensions, and the fifth dimension describes the motion away from this boundary into the interior of the curved space-time. In this five-dimensional space-time, there is a strong gravitational field pulling objects away from the boundary, and as a result time flows more slowly far away from the boundary than close to it. This also implies that an object that has a fixed proper size in the interior can appear to have a different size when viewed from the boundary (Fig. 1). Strings existing in the five-dimensional space-time can even look point-like when they are close to the boundary. Polchinski and Strassler1 show that when an energetic four-dimensional particle (such as an electron) is scattered from these strings (describing protons), the main contribution comes from a string that is close to the boundary and it is therefore seen as a point-like object. So a string-like interpretation of a proton is not at odds with the observation that there are point-like objects inside it.

***

Holography encodes the information in a region of space onto a surface one dimension lower. It sees to be the property of gravity, as is shown by the fact that the area of th event horizon measures the number of internal states of a blackhole, holography would be a one-to-one correspondance between states in our four dimensional world and states in higher dimensions. From a positivist viewpoint, one cannot distinquish which discription is more fundamental.

Pg 198, The Universe in Nutshell, by Stephen Hawking

***

In 1919, Kaluza sent Albert Einstein a preprint --- later published in 1921 --- that considered the extension of general relativity to five dimensions. He assumed that the 5-dimensional field equations were simply the higher-dimensional version of the vacuum Einstein equation, and that all the metric components were independent of the fifth coordinate. The later assumption came to be known as the cylinder condition. This resulted in something remarkable: the fifteen higher-dimension field equations naturally broke into a set of ten formulae governing a tensor field representing gravity, four describing a vector field representing electromagnetism, and one wave equation for a scalar field. Furthermore, if the scalar field was constant, the vector field equations were just Maxwell's equations in vacuo, and the tensor field equations were the 4-dimensional Einstein field equations sourced by an EM field. In one fell swoop, Kaluza had written down a single covariant field theory in five dimensions that yielded the four dimensional theories of general relativity and electromagnetism. Naturally, Einstein was very interested in this preprint .(sorry link now dead)

Extra-Dimensions....What is Heaven Like?

Fidel wrote:
And yet modern science says it's not so silly, and that many things are possible now that were deemed not to be in relatively recent history.


this increases his resistance to movement, in other words, he acquires mass, just like a particle moving through the Higgs field...

That statement Fidel might be one that is not true. Extra-dimensions is a contentious one and is in the process of being proofed at LHC(search for Higgs). The romance one might associate with it, can be dreamily stated as to imply "other worlds or parallel universes," but that is not what is being examined in the science of it.


In geometry, the tesseract, or hypercube, is a regular convex polychoron with eight cubical cells. It can be thought of as a 4-dimensional analogue of the cube. Roughly speaking, the tesseract is to the cube as the cube is to the square.
  Generalizations of the cube to dimensions greater than three are called hypercubes or measure polytopes. This article focuses on the 4D hypercube, the tesseract.

While not a scientist myself and a layman to boot, I have followed these scientists trying to gather their thoughts.


Penrose's Influence on EscherDuring the later half of the 1950’s, Maurits Cornelius Escher received a letter from Lionel and Roger Penrose. This letter consisted of a report by the father and son team that focused on impossible figures. By this time, Escher had begun exploring impossible worlds. He had recently produced the lithograph Belvedere based on the “rib-cube,” an impossible cuboid named by Escher (Teuber 161). However, the letter by the Penroses, which would later appear in the British Journal of Psychology, enlightened Escher to two new impossible objects; the Penrose triangle and the Penrose stairs. With these figures, Escher went on to create further impossible worlds that break the laws of three-dimensional space, mystify one’s mind, and give a window to the artist heart.
 
Flatland thinking( a race of rebels)or, artist geometrical impressionism of Dali or Escher(Penrose's Influence on Escher,) the Cubists("Monte Carlo methods" in relation to the scientists search for quantum gravity,) may help to extend the thinking around such parameters, while we here dreamily ask the question of, What is heaven like?

Such mathematical equations may constrict the thinker, while others creatively are not so tightly held. Visual thinkers are not? They rely on the conceptual creations of mathematics....and their repeatability in modern verse.

While we examine the features in our heads as visualization of heaven, this is part and parcel of what a good man like Dirac was able to do in terms of not only writing algebraic equations but was also very good at "visual imagery" as well. This balance is important....while I can only dream of being the mathematical expert as well to proof my own statements. But we have others who will help?.....ah no?....that's okay.

Imagine a world with no Anti-Matter? No equatorial axiomatic expressions of the universe?:) Just plain, Dark and Dead.:) Walking over a bridge in visualization is escapism....while there exists another side to the question?

Tuesday, June 14, 2011

The Socratic Method.....and Plato's Ideas, is Replaced by Google?



http://youtu.be/dk60sYrU2RU

The idea that truth is timeless and resides outside the universe was the essence of Plato's philosophy, exemplified in the parable of the slave boy that was meant to argue that discovery is merely remembering. Lee Smolin
 Bold added for me for emphasis....as well as saying that this philosophy is not "outside of time."



Our attempt to justify our beliefs logically by giving reasons results in the "regress of reasons." Since any reason can be further challenged, the regress of reasons threatens to be an infinite regress. However, since this is impossible, there must be reasons for which there do not need to be further reasons: reasons which do not need to be proven. By definition, these are "first principles." The "Problem of First Principles" arises when we ask Why such reasons would not need to be proven. Aristotle's answer was that first principles do not need to be proven because they are self-evident, i.e. they are known to be true simply by understanding them.

Yes no doubt. But as you look through the experiment present by Youtube something very important is realized that as a "data base" and Google's connection to it,  allow an excursion for children that we would want applied to "all thinking beings"  as  a vast resource made available to them, having considered the Grandmothers as part of the cloud of encouragement toward progressing and developing. Teachers can come in many forms?

So yes I see education in this way as well...but imagine if such a data base is taken away......imagine being devoid of the technology?

You want to see the children apply such a tool .....being devoid of the technology as to a method inherent in their own design and makeup which will grant them the same benefits as you would have,  having gone through such an experiment?

What did they learn that was algorithmic pleasing that Arthur C Clarke might embrace as to all teachers? Replace teachers with Grandmother Cloud?

These things are being considered now in the future development of education as I have research it.....but there is something deeper that must be transmitted that can only be done with the interaction of the teachers....while still accessing that data, you still need the teachers there.

Imagine a "gogle search feature" as the very last "self evident question." This is internal and not attached to the keyboard computerized developer algorithmic code,  but is a feature of the human being searching, looking for answers, and becoming their own teachers as well as students. This the independence you want transmitted to children from teachers, as well as too,  adults in my view. The teacher, and student are one.

You of course recognize the grounding factor...all I am saying is this inductive /deductive process is part of the need for individuals to excel, regardless of that technology.

***




Logic is the art of thinking; grammar, the art of inventing symbols and combining them to express thought; and rhetoric, the art of communicating thought from one mind to another, the adaptation of language to circumstance.Sister Miriam Joseph


 Painting by Cesare Maccari (1840-1919), Cicero Denounces Catiline.

In medieval universities, the trivium comprised the three subjects taught first: grammar, logic, and rhetoric. The word is a Latin term meaning “the three ways” or “the three roads” forming the foundation of a medieval liberal arts education. This study was preparatory for the quadrivium. The trivium is implicit in the De nuptiis of Martianus Capella, although the term was not used until the Carolingian era when it was coined in imitation of the earlier quadrivium.[1] It was later systematized in part by Petrus Ramus as an essential part of Ramism.

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The quadrivium comprised the four subjects, or arts, taught in medieval universities after the trivium. The word is Latin, meaning "the four ways" or "the four roads". Together, the trivium and the quadrivium comprised the seven liberal arts.[1] The quadrivium consisted of arithmetic, geometry, music, and astronomy. These followed the preparatory work of the trivium made up of grammar, logic (or dialectic, as it was called at the times), and rhetoric. In turn, the quadrivium was considered preparatory work for the serious study of philosophy and theology.

***

The Pyramid(as an expression of Liberal Arts Encapsulated) is a combination of  the Trivium , and  the Quadrivium

If you internalize this pyramidal structure then you realize what Plato was talking about in terms of "the idea" and how it can arrive at the peak. This is of course after giving education a  sincere scrutiny with all the tools applicable to what can become self evident? The "google search feature,"  is your connection to "vast potentials" and is accessible to all who are creative and endeavor to learn to understand the search for truth.

Sunday, June 12, 2011

Oh My God Particles

"The soul is awestruck and shudders at the sight of the beautiful." Plato

Leon Max Lederman (born July 15, 1922) is an American experimental physicist and Nobel Prize in Physics laureate for his work with neutrinos. He is Director Emeritus of Fermi National Accelerator Laboratory (Fermilab) in Batavia, Illinois. He founded the Illinois Mathematics and Science Academy, in Aurora, Illinois in 1986, and has served in the capacity of Resident Scholar since 1998.


 The lessons of history are clear. The more exotic, the more abstract the knowledge, the more profound will be its consequences." Leon Lederman, from an address to the Franklin Institute, 1995
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Centaurus A - one of the closest galaxies with an active galactic nucleus - although it is over 10 million light years away. If you are looking for a likely source of ultra-high-energy cosmic rays - you may not need to look further. Credit: ESO.

Recent observations by the Pierre Auger Observatory have found a strong correlation between extragalactic cosmic rays patterns and the distribution of nearby galaxies with active galactic nuclei. Biermann and Souza have now come up with an evidence-based model for the origin of galactic and extragalactic cosmic rays – which has a number of testable predictions.


They propose that extragalactic cosmic rays are spun up in supermassive black hole accretion disks, which are the basis of active galactic nuclei. Furthermore, they estimate that nearly all extragalactic cosmic rays that reach Earth come from Centaurus A. So, no huge mystery – indeed a rich area for further research. Particles from an active supermassive black hole accretion disk in another galaxy are being delivered to our doorstep. See:Universe Today: Astronomy Without A Telescope – Oh-My-God Particles
***
The links that follow below are dated and may be open to corrections with current data.


Oh-My-God particle
On the evening of October 15, 1991, an ultra-high energy cosmic particle was observed over Salt Lake City, Utah. Dubbed the "Oh-My-God particle" (a play on the nickname "God particle" for the Higgs boson), it was estimated to have an energy of approximately 3 × 1020 electronvolts, equivalent to about 50 joules—in other words, it was a subatomic particle with macroscopic kinetic energy, comparable to that of a fastball, or to the mass-energy of a microbe. It was most likely a proton travelling with almost the speed of light (in the case that it was a proton its speed was approximately (1 - 4.9 × 10-24)c – after traveling one light year the particle would be only 46 nanometres behind a photon that left at the same time) and its observation was a shock to astrophysicists.

Since the first observation, by the University of Utah's Fly's Eye 2, at least fifteen similar events have been recorded, confirming the phenomenon. The source of such high energy particles remains a mystery, especially since interactions with blue-shifted cosmic microwave background radiation limit the distance that these particles can travel before losing energy (the Greisen-Zatsepin-Kuzmin limit).

Because of its mass the Oh-My-God particle would have experienced very little influence from cosmic electromagnetic and gravitational fields, and so its trajectory should be easily calculable. However, nothing of note was found in the estimated direction of its origin.

***

If some of physicists' favourite theories about extra dimensions are correct, it would also be possible for high-energy cosmic-ray particles from space to create black holes when they collide with molecules in the Earth's atmosphere. These black holes would be invisibly small, with a mass of only 10 micrograms or so. And they would be so unstable that they would explode in a burst of particles within around a billion-billion-billionth of a second.




One of the mysterious "Centauro" events seen by the Brazil ­Japan collaboration operating X-ray emulsion chambers at an altitude of 5200 m on Mt Chacaltaya in the Bolivian Andes. Given the number of hadrons seen in the lower chamber (left) physicists are intrigued by the relative lack of corresponding electromagnetic effects in the upper chamber (right).


Can Centauros or Chirons be the first observations
of evaporating mini Black Holes?



Among the various extensions of the Standard Model to energies beyond 1 TeV, one of the most attractive alternatives to the (Supersymmetric?) Great Desert Scenario is the TeV-gravity hypothesis with large extra dimensions [1]. According to it, matter particles and vector gauge bosons are open-string excitations, attached to a 3-brane (our world), which is embedded into compactified D-dimensional bulk space, where the closed-string excitations, including gravity, can propagate. This is the simplest possibility. Specific realizations of this idea and alternative scenaria may be found in [2]. Apart from a certain philosophic and aesthetic attraction of such models, they lead to the exciting possibility of experimental discovery of unification of the Standard Model with Quantum Gravity within the next few years, in the forthcoming accelerator, neutrino and cosmic-ray experiments [3, 4, 5].

Moreover, one could even claim that Quantum Gravity phenomena are already present in existing cosmic-ray data [6]. In the present paper we shall argue that the long-known Centauro-like events (CLEs) may be due to the formation and subsequent evaporation of mini black holes (MBHs), predicted in TeV-gravity models.

See:

Friday, June 10, 2011

Donald Coxeter


Photo by Graham Challifour. Reproduced from Critchlow, 1979, p. 132.




"I’m a Platonist — a follower of Plato — who believes that one didn’t invent these sorts of things, that one discovers them. In a sense, all these mathematical facts are right there waiting to be discovered."Harold Scott Macdonald (H. S. M.) Coxeter
While a layman in my pursuance and understanding of the nature of geometry, it is along the way we meet some educators who fire up our excitement. For me it is about the truth of what lies so close to the soul's ideal.

Michael Atiyah:
At this point in the development, although geometry provided a common framework for all the forces, there was still no way to complete the unification by combining quantum theory and general relativity. Since quantum theory deals with the very small and general relativity with the very large, many physicists feel that, for all practical purposes, there is no need to attempt such an ultimate unification. Others however disagree, arguing that physicists should never give up on this ultimate search, and for these the hunt for this final unification is the ‘holy grail’.

As if searching for a foundation principle, and highly subjective one in my case, I have been touched by example, as if to direct my attention to the early geometer.



Georg Friedrich Bernhard Riemann 1826 – 1866

Riemannian Geometry, also known as elliptical geometry, is the geometry of the surface of a sphere. It replaces Euclid's Parallel Postulate with, "Through any point in the plane, there exists no line parallel to a given line." A line in this geometry is a great circle. The sum of the angles of a triangle in Riemannian Geometry is > 180°.

To me this is one of the greatest achievements of mathematical structures that one could encounter, It revolutionize many a view, that been held to classical discriptions of reality.

In the quiet achievement of Riemann’s tutorial teacher Gauss, recognized the great potential in his student. On the curvature parameters, we recognize in Gauss’s work, what would soon became apparent? That we were being lead into another world for consideration?





XXV.  Gaussian Co-ordinates-click on Picture

Albert Einstein (1879–1955).  Relativity: The Special and General Theory.  1920.

So here we are, that we might in our considerations go beyond the global perspectives, to another world that Einstein would so methodically reveal in the geometry and physics, that it would include the electromagnetic considerations of Maxwell into a cohesive whole and beyond.


"Let no one destitute of geometry enter my doors."


The intuitive development that we are lead through geometrically asks us to consider again, how Riemann moved to a positive aspect of the universe?


See:Donald Coxeter: The Man Who Saved Geometry

Monday, June 06, 2011

Color of Gravity 4


This is the most important song I’ve ever written, it's a time capsule song. I will listen to it every day of my life if I need to. It's honest to God the most important song I’ve ever written in my life, and it has the fewest words. I was in LA, and I was there for the summer, just writing tunes, and I was in the shower. And I don't know where it came from, but it's the damn truth you know, and I just sang, "gravity...is working against me.Gravity (John Mayer song)
When at a loss of words as to the way in which we can express our feelings, and the way in which we are experiencing the world Mayer found a way in which to express the inevitable undercurrents that he was experiencing in LA?

A chalk board example about love not being gravity comes to mind right around the time the PI Institute was giving it's first tours?

Well I have indeed stuck to Einsteins conclusion about the observer and time(not outside of it). I had extended it "to mean" as a reference to a colorimetric, and not a calorimeter position within the configuration space, with regard to our place in time of this universe. Our mental state.

So it all extends to the weight of something we can apply, and the "truth in comparison weighted" as to "now," that there is an extension of this thinking to me in our mental states which we can occupy according to our choices. Our labels. The quest for universal language of understanding?

Close Encounters

Close Encounters was a long-cherished project for Spielberg.

In the sky above them, streaking objects resembling comets whoosh through the blackness. Roy whispers expectantly to Jillian: "We're the only ones who know. The only ones." Three tiny, neon-lit scout ships appear with the tiny red orb following in their wake - they hover over the end of the runway. Audio analysis personnel ready themselves to communicate with the sparkling, illuminated objects at the rendezvous point. A giant electronic board covered with colored strips and a powerful synthesized musical keyboard have been constructed at the site. The Air Force scientists duplicate the electronic sounds that they have heard in transmissions, mixing them with light sequences (on colored strips) to communicate. The computer and audio specialists play the loud clear sounds of the five-note sequence after the signal: "Sunset"
Start with the tone. (Pinkish-red) - G
Up a full tone. (Orange) - A
Down a major third. (Purple) - F
Now drop an octave. (Yellow) - F (an octave lower)
Up a perfect fifth. (White) - C


So it is an alien expression by design,  that the language is long sought after, that we might speak on this on a universal level? Yes, although science fiction demonstrate in our movies, there is  a deeper connection as to the wondering of how we may apply a language that is applicable to all human beings? Yes, we require the science of, while looking to the nature of Quantum Gravity. I am immersed in the nature of the gravity in our mental states.



For one minute look through glasses in front of you, your eyes, and switch on as if the whole world is in such a gravity color spectrum, and what is it that your bias have left for you as to the footprints/labels in that configuration space?

You see, songs have this current and undertone that is like a metrical language itself, that is appeasing not only in the choice of linguistics, but in the way such sounds can be fluid toward meaningful expression? The emotive heart songs the soul like to sing?

See Also: Emotion and Reason Balanced: The Mind's Consequence?

Saturday, June 04, 2011

Space Travel and Propulsion Methods

As a layman, my interest has been mainly focused on gravity and a means to defy it. How one can see in different ways.

The Lagrange Points

In the above contour plot we see that L4 and L5 correspond to hilltops and L1, L2 and L3 correspond to saddles (i.e. points where the potential is curving up in one direction and down in the other). This suggests that satellites placed at the Lagrange points will have a tendency to wander off (try sitting a marble on top of a watermelon or on top of a real saddle and you get the idea). A detailed analysis (PDF link) confirms our expectations for L1, L2 and L3, but not for L4 and L5. When a satellite parked at L4 or L5 starts to roll off the hill it picks up speed. At this point the Coriolis force comes into play - the same force that causes hurricanes to spin up on the earth - and sends the satellite into a stable orbit around the Lagrange point.
Seeing space in a different light helps one to adjust perspective abut the universe and the possibilities of travel. There is indeed a abstractness to such ideas that when one sees the universe in a geometrical way, it helped to push my perspective about tunnels in space. How sound may be used to image WMAP.  The three body problem application toward identification of those L positions.

What position is the Space Station occupying?

Warp Drives", "Hyperspace Drives", or any other term for Faster-than-light travel is at the level of speculation, with some facets edging into the realm of science. We are at the point where we know what we do know and know what we don’t, but do not know for sure if faster than light travel is possible.

The bad news is that the bulk of scientific knowledge that we have accumulated to date concludes that faster than light travel is impossible. This is an artifact of Einstein’s Special Theory of Relativity. Yes, there are some other perspectives; tachyons, wormholes, inflationary universe, spacetime warping, quantum paradoxes...ideas that are in credible scientific literature, but it is still too soon to know if such ideas are viable.

One of the issues that is evoked by any faster-than-light transport is time paradoxes: causality violations and implications of time travel. As if the faster than light issue wasn’t tough enough, it is possible to construct elaborate scenarios where faster-than-light travel results in time travel. Time travel is considered far more impossible than light travel.

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ADVANCED SPACE PROPULSION BASED
ON VACUUM (SPACETIME METRIC) ENGINEERING by HAROLD E. PUTHOFF
Institute for Advanced Studies at Austin, 11855 Research Blvd., Austin, Texas 78759, USA.

A theme that has come to the fore in advanced planning for long-range space exploration is the concept that empty space itself (the quantum vacuum, or spacetime metric) might be engineered so as to provide energy/thrust for future space vehicles. Although far-reaching, such a proposal is solidly grounded in modern physical theory, and therefore the possibility that matter/vacuum interactions might be engineered for space-flight applications is not a priori ruled out [1]. As examples, the current development of theoretical physics addresses such topics as warp drives, traversable wormholes and time machines that provide for such vacuum engineering possibilities [2-6]. We provide here from a broad perspective the physics and correlates/
consequences of the engineering of the spacetime metric.

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Concept of the Alcubierre drive, showing the opposing regions of expanding and contracting spacetime that propel the central region
The Alcubierre drive, also known as the Alcubierre metric, is a speculative mathematical model of a spacetime exhibiting features reminiscent of the fictional "warp drive" from Star Trek, which can travel "faster than light", although not in a local sense.

See Also: Hypothetical Methods of Space Craft propulsion

Wireless Affects on Biological Systems

Hmmmm.......
BioInitiative
Brain tumour risk in relation to mobile
telephone use: results of the INTERPHONE
international case–control study


Michael Kundi, head of the Institute of Environmental Health, Medical University of Vienna says of the study “Authors emphasize that no increased risk was detected overall. But this is not unexpected. No exposures to carcinogens that cause solid tumors like brain cancer or lung cancers, for example from tobacco and asbestos have ever been shown to significantly increase cancer risk in people with such short duration of exposure. The latency period for brain cancer is 15-30 years.See: Ten-Year INTERPHONE Cell Phone Study Reports Increased Risk for Brain Cancer

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Human Radiation Effects Group

For me I have always been interested in the affect "fields may play on human beings." The experiment to see activation of field response in other venues, as lets say fluorescent light tubes as a artistic statement in the culmination of such a affect? It's strength and weakness across the outlay of tubes as to distance of EMF exposure? Can such activations be done as well, in the case of fluorescence, as to show environmental changes at the cellular level with wireless transmissions? Would this help?


Endothelial cells under the microscope. Nuclei are stained blue with DAPI, microtubles are marked green by an antibody bound to FITC and actin filaments are labelled red with phalloidin bound to TRITC. Bovine pulmonary arthery endothelial cells

The idea here hypothetically presented in strength, according to that intensity of wireless transmission, as to the brightness of the florescence when activated? Would this overview "for a environmental application within the body and the affects of, " be  shown as florescence activated in the blood stream?
See: Fluorescence microscope




Layman questions for sure. I am open to reasons why not.

Ambigram, Higgs, and Feynman rules

An ambigram is a typographical design or art form that may be read as one or more words not only in its form as presented, but also from another viewpoint, direction, or orientation. The words readable in the other viewpoint, direction or orientation may be the same or different from the original words. Douglas R. Hofstadter describes an ambigram as a "calligraphic design that manages to squeeze two different readings into the selfsame set of curves." Different ambigram artists (sometimes called ambigramists) may create completely different ambigrams from the same word or words, differing in both style and form. See: Ambigram

Wave-particle.jpg. Modifications made by Seahen. Perceptual shift ambigram by Douglas Hofstadter as play on the Wave–particle duality of light

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Higgs and the vacuum: Viva la “vev”

Wave-particle duality is one of those well-known buzz words of quantum mechanics. Is light a particle or a wave? Is an electron a particle or a wave? If these things are waves, then what are they waves of?


In high energy physics we’re usually interested in small things that move very quickly, so we use the framework of quantum field theory (QFT) which is the marriage of quantum mechanics (which describes “small” things) and special relativity (which describes “fast” things). The quantum ‘waves’ are waves in the quantum field associated with a particle. The loose interpretation of the field is the probability that you might find a particle there. See Also:An Idiosyncratic Introduction to the Higgs and A diagrammatic hint of masses from the Higgs

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The Higgs Mechanism
source: CERN


To understand the Higgs mechanism, imagine that a room full of physicists chattering quietly is like space filled with the Higgs field ...


... a well-known scientist walks in, creating a disturbance as he moves across the room and attracting a cluster of admirers with each step ...


... this increases his resistance to movement, in other words, he acquires mass, just like a particle moving through the Higgs field...


... if a rumor crosses the room, ...


... it creates the same kind of clustering, but this time among the scientists themselves. In this analogy, these clusters are the Higgs particles.