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Magnified Universe: Cosmic Landscape in Quantum Décor

Title and its Storyline

Why Magnified Universe?

The fabric of universe at a common level is conjectured as the structure that is directly perceived through the eye. But every scientist, and rational thinker, knows that there is more to it—more texture; more details; more interconnectivity, and thus better logical significance behind the palpable. (Just saw a philosophical take on that.) The universe we perceive as colossal and infinite might be just that—a perception.

In the boundaryless of quantum we not only see a comprehensive picture, but it is in the quantum description that we find rationality and an inter-connective significance in all that bubbles and evolves.

The infinitesimal of quantum and enormity of cosmos are the snapshots of reality based on how we decide to comprehend the nature of reality. Quantum and cosmic are both key elements, but they aren’t two different things. The fundamental forces, and their manifestations, are size irrespective. In discerning cosmic plane as enormous and vast we must account the spatial relativity set-up by our visual sense. We might be magnifying the universe. Thus the title: Magnified Universe.

Why Cosmic Landscape in Quantum Décor?

In the all-inclusive reality, quantum plane and cosmic arena aren’t two different things. Quantum principles play unhindered in the cosmic plane. Thus, the subtitle: Cosmic landscape in quantum décor.

Why the Banner?

Importantly though, I also want to say something on the banner of this blog: A human figure inserted in a convoluted rendering, with a cosmic deep field backdrop. Indeed, I quite like the image (I myself compiled it), and I think you would agree that it fits nicely with the theme of the subject, that is to comprehend an all-encompassing reality in the window of empirical observations and methodic concepts, and savor the mathematical and tangible beauty along the way. This has been a baseline banner in all my activities, in the virtual world (Facebook, Twitter, LinkedIn) or on the temporal plane (public speeches, discussions). The main reason I wanted to bring this up, however, is the show of the convoluted rendering in the banner (encompassing the human figure). I appreciatively acknowledge A. Hanson of Indiana University, the creator of this elegant graphic, for letting me use it.

FigV

In the mathematical world this rendering is known as Calabi-Yau manifold. And the reason I relish this mathematical object is because it can be seen as a testimony to the union between mathematics and physics, or the truth of mathematical physics. At a physical level, this mathematical object shows how the dimensions are sewn together in a continuum. There are endless resources on how Calabi-Yau manifold came to be, first in the landscape of pure mathematics, and then infiltrating the boundaries of physics in the scene where the picture of reality takes form.

Mathematical object

Calabi-Yau manifold Credit: A. Hanson

 
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The Gist

Over months, I have pulled up many different colors of witnessing the order of reality. Ways are endless really. And our personal attitudes do really count in the way we like to journey, or even see. Here, we have been taking routes of physical sciences, and we will continue to do so. To keep the focus of our sight and vision, it will help to leaf through the pitches I circulated, and breathe in the central argument behind each.

Here we go:

The Nature of Reality

Why this? And a little of Why me?

The Whole of it in One Single Sweep

Starting out on a journey toward seeing a full-length picture, in the methodic voice of physical sciences

Are We Able to Picture it?

Issue of blending fundamental principles with emergence of consciousness, and the question that ensues: The nature of self

The Mathematical Truth

The perfect glue in constructing an overarching picture of reality, and the underlying idea of mathematical truth

Continued in the next post…

Neeti.

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Magnified Universe: Cosmic Landscape in Quantum Décor

The theme accentuated: continued…

In discussing over the underlying gist of the blog Magnified Universe: Cosmic Landscape in Quantum Décor we skimmed through the overall idea of how the three components are indispensable if we are to envision the truest order of reality. Those components are:

1] Cosmic observations

2] Quantum observations

3] The nature of self

Cosmic observations impart a limited range, authentic nonetheless, picture. We only see what we can see. Quantum level reading broadcast a comprehensive picture: including every bit, and factual scenarios that we do not directly perceive. It is in quantum mechanical rendering that all the elements of reality can be seen to play. All-encompassing architecture—that subsumes infinitesimal bits of atomic and subatomic particles, even strings for the believers of string theory (I support the idea totally!), molecular, macromolecular and complex biological structures, cosmic arena, the entire of the universe, and also its parallel universes—at the foundational level boils down to the sweep of matter and the forces by which matter exists.

In a nutshell there only are two constituents to dovetail in seeing one flawless scheme—matter and the forces through which matter exists. Amazingly simple task, but exceedingly hard to surmount! Simply because the ultimate picture must pick up all of the methodic observations in one fell swoop, and explain the rationality behind contradictions, such as prodigiously expanding universe in the tethering field of gravity, or the existence of antimatter.

However, there does prevail just one more vital element, executing in the overarching game of reality, admittance of which not only completes our picture of reality, it irons out perplexities of the empirical descriptions as well. That element is the ultimate nature of self. Physical Laws of the Mathematical Universe: Who Are We? not only pins down the ultimate nature of self, but extends to show its play in the all-encompassing scheme, and sharpens scientific picture along the way.

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Now a deep-seated aid at our hand in all of this! Behind the discrete show of the universe, there seeps a profound glue. A glue that interlocks disparate pieces into one compact description. We have seen it over and over, and many of us have guessed it correctly. It is the glue of mathematics. Why it comes to be that way? Simply put, mathematics is an algorithmic language that lets us read reality. Deeply engrossed in the formulas of mathematics, we forget as to what a mathematical formula actually is: the formulation of reality, or the structure of reality. Mathematics, which though at the surface is a tool to codify the interplay of discrete entities, at the most basic level is the structure of reality itself, the reverberations of which we haven’t fully figured out. Same as we haven’t all the way figured out how the universe structures and continues.

The discrepancies lurk; Inquiries linger; Bewilderment creeps.

However, the numerical language carries the highest of potentials to expose the truly real all-inclusive picture of reality, simply because mathematics crystallizes only by play of all the components. Simple to intricate examples are covered in the new title.

And it is in the deep subtleties of mathematics that we can not only pin down quantum dynamics and cosmic display, but also tease out the truest identity of self.

FigIV

In keeping with the blogging courtesy and your continual interest, I would need to take a pause here, and expand on this further in the subsequent posts.

Until then please also take a peek at one of my earlier posts to get a general idea that seeps underneath the parallelism between mathematics and the physical world.

See you soon,

Neeti

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Universe Needing to Inflate

Universe Needing to Inflate

In the evolution of the universe there conceivably occurred an instance of prodigious expansion, so rapid that the universe’s once infinitely dense miniscule glob swiftly stretched—light years across in a fraction of a second. The incident is commonly referred to as inflation. As enigmatic as it may sound, the scenario of expeditious growth does have healthy outlooks to support of the way we envisage the universe based on scientific judgments.

Inflation explains why the universe we find ourselves in is flat; it explains away why the observable universe is constitutionally same whichever side we look, or is largely isotropic. First proposed by Alan Guth, the stunt of inflation further goes on to explain the unification of the two grand principles, general relativity and quantum mechanics. That is, the inflation exposes a way to realize that a gravitational wave is just a mere transfiguration of quantum fluctuation. That is why the conclusive detection of gravitational wave by BICEP2 (Background Imaging of Cosmic Extragalactic Polarization 2) was a much celebrated event, especially for scientific community, because it was a firsthand glimpse into the universe undergone inflation. Although several reports following the initial discovery wavered between optimistic and skeptical standpoints on having identified gravitational waves—we very likely saw it; no we didn’t; we probably did; no probably not—over all the observations do seem to provide a rational evidence for the beat of gravitational waves from the dawning cosmos, supporting the occurrence of inflation.

Here is the entertaining part. Methodical measurements suggest that this abrupt unfurling of the cosmos was rapider that the speed of the light itself. Truly intriguing: because the speed of light is the maximum attainable speed as per the well-credited Einstein’s special relativity. As delightful as it is to relish, when comes to explaining such an oddity we are struck with the quandary of seeing the space-time to have momentarily broken the rule by which it itself flows. From special relativity we know that the time dilates to accommodate speed, but in an instance of a speed surpassing the light how do we see the time as a part of space, in the usual texture of space-time?

In justifying a speed faster than that of light, where time still permeates the texture, we probably have just one way of seeing the picture—An order where the space-time doesn’t flow but manifests as discrete units. This is not something entirely new I am referring to here. It is suggested in Einstein’s special relativity that the speed of light is constant for all observers, and this basically means that two objects approaching with different speeds would both be seen at once—not the one with the higher velocity first. Thus, when it comes to the light-speed the space-time arena manifests. For velocities within the light-speed the time shifts—the higher the speed the lower the ticking of the time. In a possible event of surpassing light-speed the flow halts, and the manifestation transpires. In all the scenarios though, the time is indeed valued to be inextricably blended with the space.

Besides figuring out the dilemma of how exactly the inflation came about, the idea of inflation itself is truly insightful, and as stated above it does iron out two of the deepest mysteries of the cosmic plane: one that the universe is flat on all sides we see. But the cosmic structure appearing flat doesn’t necessarily mean it is flat. The geometrical appearance is a matter of perception. Encountering an object is an advent of electromagnetic radiation from that object impinging the eye, which doesn’t impart much information on how the space itself is structured. We can surely assign closeness and farness to an object but cannot refer with certainty whether the space-time is flat or infinitely curved, or even permanently shapeless.

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The cosmic isotropy that is supported by inflation, on the other hand, signifies the continuum of a single overarching tapestry from the initiation, billions of years ago, to our vision.

The full-length reality entails that the cosmic plane and quantum décor, Newtonian mechanics, Einstein relativities and particle fields all harmonize to announce a single continuum. And the   inflation once again gives us a way to see the metamorphosis of the minute quantum fluctuation to a gigantic gravitational wave—where seeing the unification of quantum and cosmic planes becomes conceivable.

But in the above schematic there is a slight glitch, which is to justify the continuum of the palpating “multiverse” that we make out from purely quantum studies. To overcome this perplexity it is proposed that different regions of the universe experienced their own separate growth (or inflation)—what we glance at is just one of those regions.

Seeing the cosmic and quantum structures as one field involves the principles of Einstein’s relativities, quantum field and how we perceive the universe directly, but I will end this post here, and leave the matter for the coming ones.

I will be back shortly.

Neeti

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