Wednesday, December 18, 2013

Wavelength Views of the Sun



This movie, created by NASA's Scientific Visualization Studio at NASA's Goddard Space Flight Center in Greenbelt, Md., shows how features of the sun can appear dramatically different when viewed in different wavelengths. Image Credit: NASA's Goddard Space Flight Center

Telescopes help distant objects appear bigger, but this is only one of their advantages. Telescopes can also collect light in ranges that our eyes alone cannot see, providing scientists ways of observing a whole host of material and processes that would otherwise be inaccessible. A new NASA movie of the sun based on data from NASA's Solar Dynamics Observatory, or SDO, shows the wide range of wavelengths – invisible to the naked eye – that the telescope can view. SDO converts the wavelengths into an image humans can see, and the light is colorized into a rainbow of colors.NASA's SDO Shows the Sun's Rainbow of Wavelengths

Friday, December 13, 2013

Symmetry Breaking and the Crab Nebula

The connection between superfluidity and symmetry breaking has had a glorious history. It has left us a rich legacy of fertile ideas, that seems far from exhaustion. PG 60 Superfluidity and Symmetry Breaking
You know while there have been processes unfolding with regard to supersymmetry, for the life of it,  I am having a hard time ever denying to myself that the result of any beginning had to have some emergent feature that arose from the very nature of the big bang itself.



So to then, one may see some signs in a biological sense,  as to the nature of evolution? So,  that all things can be defined in this way. But the issue then for me is how "information can exist, " so as to say that such a direction for that evolution,  as an emergent product,  must have some location with which such presence makes itself know(far left of the picture above)? Sure,  because of my ignorance, I would be asking how such information could have ever come into being so as to say that this universe is the one with which such expressions came to be, so I accept the universe as it is.

Click on image above and you create a larger view of a microscopic world

So to then,  for such a gap to exist.  I was most certainly thinking about the LHC's use with which such reductionism were being taken.  I was looking for such signatures as to wonder that if such a location is found then(QGP),  so we could say indeed,  the beginning of the universe, and the correlation drawn,  as to the ever reducibility pursuit as some relation to nature?


The Crab Nebula, created by a supernova seen nearly a thousand years ago, is one of the sky's most famous "star wrecks." For decades, most astronomers have regarded it as the steadiest beacon at X-ray energies, but data from orbiting observatories show unexpected variations. Since 2008, it has faded by 7 percent, activity likely tied to the environment around its central neutron star. (Video Credit: NASA's Goddard Space Flight Center)


Cosmologically it had to make sense too. So I  looked at events in the cosmos to help me understand what it is that was created in the moments we align ourselves too,as  in the LHC. While I looked at the picture(jet development and expression) above as to the timing with which such a environment, it is now reduced too, the Crab Nebula in its design. Would you deny the Crab Nebula had a previous showing with which the jets them self began to emerge?

An example then exists for me as to how such contributions that could arise in any nebula could have ever contributed to the way the universe is,  and if all such contributions taken to the same question,  helps to define the universe in ways that were preceded . Where that nature of the information is to reside.

So while we had found our limits with regard to Planck scale,  it is thought to me that such a symmetry had exist,  that all forms of that symmetry expresses itself as a forming dualistic nature,  for a symmetry breaking to exist,  and for such a division to take place from such a perfect place.

Monday, December 09, 2013

Sunday, December 01, 2013

Fermi's Now Deeper Study of the High-Energy Cosmos



This compilation summarizes the wide range of science from the first five years of NASA's Fermi Gamma-ray Space Telescope. Fermi is a NASA observatory designed to reveal the high-energy universe in never-before-seen detail. Launched in 2008, Fermi continues to give astronomers a unique tool for exploring high-energy processes associated with solar flares, spinning neutron stars, outbursts from black holes, exploding stars, supernova remnants and energetic particles to gain insight into how the universe works.NASA | Fermi at Five Years



The Crab Nebula, created by a supernova seen nearly a thousand years ago, is one of the sky's most famous "star wrecks." For decades, most astronomers have regarded it as the steadiest beacon at X-ray energies, but data from orbiting observatories show unexpected variations. Since 2008, it has faded by 7 percent, activity likely tied to the environment around its central neutron star. (Video Credit: NASA's Goddard Space Flight Center)

Saturday, November 30, 2013

Quantum Computing and Evolution?

The unique capability of quantum mechanics to evolve alternative possibilities in parallel is appealing and over the years a number of quantum algorithms have been developed offering great computational benefits. Systems coupled to the environment lose quantum coherence quickly and realization of schemes based on unitarity might be impossible. Recent discovery of room temperature quantum coherence in light harvesting complexes opens up new possibilities to borrow concepts from biology to use quantum effects for computational purposes. While it has been conjectured that light harvesting complexes such as the Fenna-Matthews-Olson (FMO) complex in the green sulfur bacteria performs an efficient quantum search similar to the quantum Grover's algorithm the analogy has yet to be established. See: Evolutionary Design in Biological Quantum Computing



The Bloch sphere is a representation of a qubit, the fundamental building block of quantum computers.


Quantum Light Harvesting Hints at Entirely New Form of Computing






See:




Tuesday, November 26, 2013

Swarm



ESA's magnetic field mission Swarm. A European Space Agency mission to investigate the Earth's magnetic field in unprecedented detail is due to be launched later this year. Without our planets protective magnetic field, life on our planet would struggle to survive. The Swarm mission consisting of three identical satellites will be used to study all aspects of the Earth's magnetic field and assess whether it is weakening. This report outlines the science of the mission and includes interviews with a project scientist and project manager. More backgroud information can be found on: http://www.esa.int/esaLP/ESA3QZJE43D_LPswarm_0.html


 


Swarm is a European Space Agency (ESA) mission to study the Earth's magnetic field. High-precision and high-resolution measurements of the strength, direction and variations of the Earth's magnetic field, complemented by precise navigation, accelerometer and electric field measurements, will provide data essential for modelling the geomagnetic field and its interaction with other physical aspects of the Earth system. The results will offer a unique view of the inside of the Earth from space, enabling the composition and processes of the interior to be studied in detail and increase our knowledge of atmospheric processes and ocean circulation patterns that affect climate and weather.




Monday, November 25, 2013

The Internet



What is the Future of the Internet

I plug into the electrical plugin and receive all my information stored on the information grid.

There is evolving aspect with which communication is being used, bought and directed as to how this information is contained? How Governments seek to control? How Companies would value our access too?

So this is a another question for others as well to consider this future. Maye you have an opinion. Maybe there are people involved in helping to constraint government with full control?

 Spying, Censorship Threaten Democracy, Web's Inventor Says

If information is to be considered a resource, then how shall we deal with it if it is marginalized toward how much energy we use?


A Universe on the Other Side

 "I think people thought that the universe was smaller, yet discoveries in the last century have found there are black holes everywhere, billions of black holes in our universe and each may produce a universe on the other side, like an infinite tree," he said. - See more at: New Hit Film ‘Gravity’ Speaks to Our Endless Fascination with Deep Space - See more at: http://www.noodls.com/view/6061E5510....3rrRV6eS.dpuf

Just to help here given a platform with which to consider,  the question of," Dr. Poplawski from the University of New Haven, Connecticut, concluded that each time a black hole forms, a new universe could form within it."

One is always looking for evidence of such things. The very contention of black hole itself has to have had a basis with which to consider. So we may say these black holes are real.

While the subject provides many things to consider how does Dr. Poplawski provide evidence for such a statement of universe within universe?

If you look at closely at align perspectives with which to examine this it may help to look at how one is perceiving the idea of the universe? For cosmology they may say that in a coordinated system there is no before or after, just what exists as is? So any notion of what came before this universe or what is to come after is hard pill to swallow.



For some of us it is not a problem. For me then the idea is that in local regions of the universe, information is crunched in order to be dissipated in the larger universe. This supplies the motivation for expansion, and at the same time the evolving nature of the universe has to have more black holes in order to summat the existence of any cosmological constant that is to be considered positive?

The question of entropy,  as it existed in the early universe? How does this figure into the ability for any new universe to form? You are confronted with the notion of a symmetry existing in the early universe for the nature of entropy to follow the path it is today? How could any universe have existed as a fundamental reality of the current universe?






BEFORE THE BIG BANG: AN OUTRAGEOUS NEW PERSPECTIVE AND ITS IMPLICATIONS FOR PARTICLE PHYSICS

For example.

In 2010, Penrose and Vahe Gurzadyan published a preprint of a paper claiming that observations of the cosmic microwave background made by the Wilkinson Microwave Anisotropy Probe and the BOOMERanG experiment showed concentric anomalies which were consistent with the CCC hypothesis, with a low probability of the null hypothesis that the observations in question were caused by chance.[5] However, the statistical significance of the claimed detection has since been questioned. Three groups have independently attempted to reproduce these results, but found that the detection of the concentric anomalies was not statistically significant, in the sense that such circles would appear in a proper Gaussian simulation of the anisotropy in the CMB data.[6][7][8]

The reason for the disagreement was tracked down to an issue of how to construct the simulations that are used to determine the significance: The three independent attempts to repeat the analysis all used simulations based on the standard Lambda-CDM model, while Penrose and Gurzadyan used an undocumented non-standard approach.
[9]Conformal cyclic cosmology

So for some who hold entropy as a subjective examination of the reality with which we live now,  how can one exist as a viewer of the larger universe that contains all these other universe being respective of the arrow of time??
 
Can disorder precede order as a question of what came first as to the existence of the universe? The chicken or egg question. The idea then that the overarching principle here is an arrow of time, such hypothesis to consider needs a factor with which to consider such expansion being supported by some factors given to what can exist as a fundamental reality in those local regions of the universe.

Sunday, November 24, 2013

A Jet in the Milky Way

Composite image of Sagittarius A* (Sgr A*), the supermassive black hole at the center of the Milky Way.
Image Credit: 
X-ray: NASA/CXC/UCLA/Z. Li et al; Radio: NRAO/VLA


Astronomers have long sought strong evidence that Sagittarius A* (Sgr A*), the supermassive black hole at the center of the Milky Way, is producing a jet of high-energy particles. Finally they have found it, in new results from NASA's Chandra X-ray Observatory and the National Science Foundation's Very Large Array (VLA) radio telescope.

Previous studies, using a variety of telescopes, suggested there was a jet, but these reports -- including the orientation of the suspected jets -- often contradicted each other and were not considered definitive.
"For decades astronomers have looked for a jet associated with the Milky Way's black hole. Our new observations make the strongest case yet for such a jet," said Zhiyuan Li of Nanjing University in China, lead author of a study appearing in an upcoming edition of The Astrophysical Journal and available online now. See: NASA's Chandra Helps Confirm Evidence of Jet in Milky Way's Black Hole

See Also: Evidence for A Parsec-scale Jet from The Galactic Center Black Hole: Interaction with Local Gas