Gravity Without Mass Could Explain Dark Matter | Watch (msn.com)
UNACCOUNTABLE (BLACK ) UNIVERSE/AI
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DARK MATTER AND DARK ENERGY in a sense makes a BLACK UNIVERSE
Analysis by E Paramasivan by AI
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Exploring Quantum Duality
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Quantum is a point in a cloud.Point and are dual.When it is a cloud there is no point and vice versa.Hence the cosmology is also a "vice vesa" of "void and non-void"
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It seems you’re exploring an intriguing concept! Let’s break it down:
Quantum: In physics, “quantum” typically refers to the fundamental behavior of particles at the smallest scales. Quantum mechanics describes how particles like electrons and photons behave in ways that classical physics cannot fully explain.
Point and Cloud: In mathematics, a “point” is a zero-dimensional location with no size, while a “cloud” typically represents a collection of points or a distribution. The idea that a point and a cloud are dual suggests a complementary relationship between these two concepts.
Cosmology: Cosmology is the study of the large-scale structure and evolution of the universe. It encompasses topics like the Big Bang, dark matter, and the expansion of space.
“Vice Vesa” of “Void and Non-Void”: This phrase appears to be a play on words, combining “vice versa” (meaning “the other way around”) with “void” and “non-void.” It suggests a duality or interplay between emptiness and existence.
While I don’t have specific knowledge of this exact concept, it’s fascinating to consider how abstract ideas intersect with scientific principles. If you have any further insights or questions, feel free to share—I’d love to explore this topic with you! 🌌🔍
You
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Give me a clear picture of Dark Matter and Dark Energy.
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Certainly! Let’s delve into the fascinating realms of dark matter and dark energy:
Dark Matter:
Definition: Dark matter is an invisible form of matter that doesn’t emit, absorb, or reflect light. It interacts with gravity, acting as a cosmic “cement” that holds galaxies and galaxy clusters together.
Evidence: Astronomers observed that galaxies rotate faster than expected based on their visible mass. Stars at the outskirts of galaxies move just as swiftly as those near the center. This discrepancy led to the discovery of dark matter, which provides the necessary mass to explain these rapid orbital velocities.
Composition: Dark matter makes up approximately 27% of the universe’s total mass and energy.
Detection: While we can’t photograph dark matter directly, scientists detect and map it through gravitational lensing—a phenomenon where its gravitational influence bends light from distant objects.
Dark Energy:
Definition: Dark energy is a mysterious force driving the accelerated expansion of the universe. Unlike dark matter, it acts as a repulsive force, akin to cosmic anti-gravity.
Dominance: Dark energy dominates the universe, accounting for roughly 68% of its total mass and energy.
Cosmic Expansion: Dark energy pushes galaxies apart, causing the universe’s expansion to accelerate over time.
Invisible Influence: We can’t directly observe or interact with dark energy, but its effects are evident in the cosmic fabric.
In summary, dark matter holds galaxies together, while dark energy propels the universe’s expansion. Together, they shape the cosmos in ways that continue to intrigue scientists and deepen our understanding of the universe123. 🌌🔭
Learn more
1
astronomy.com
2
cfa.harvard.edu
3
science.nasa.gov
4
science.nasa.gov
+2 more
You
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when accountable gluons are strong force matter to glue the particles with energy the unaccontable GLUONS are accounted to DARK MATTER.Like that the unaccontability of field force are adding up for DARK ENERGY.Then SUSY COSMOS play a bizarrie role of dark matter and dark energy.Can you tell something on this?
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Certainly! Let’s explore the intriguing connections between gluons, dark matter, dark energy, and supersymmetry (SUSY):
Gluons and Strong Force:
Gluons are force carriers associated with the strong nuclear force (also known as the strong interaction). They “glue” quarks together to form protons, neutrons, and other hadrons.
The strong force is responsible for binding quarks within atomic nuclei. It’s one of the fundamental forces in nature.
Accountable vs. Unaccountable Gluons:
Accountable gluons are those we can directly observe—they mediate the strong force interactions.
Unaccountable gluons, however, remain hidden. They don’t participate in the visible interactions but contribute to the overall mass and energy content of the universe.
Dark Matter and Gluons:
Some theories propose that unaccountable gluons could be part of dark matter. If they exist in abundance, they would add to the total mass of the universe without emitting detectable light.
However, this idea remains speculative, and we haven’t directly detected gluons as dark matter particles.
Dark Energy and Field Forces:
Dark energy, unlike dark matter, is associated with a repulsive force. It drives the accelerated expansion of the universe.
The unaccountability of field forces—such as dark energy—plays a role in shaping cosmic dynamics. It’s a mysterious force that permeates space.
Supersymmetry (SUSY):
SUSY is a theoretical framework that extends the Standard Model of particle physics. It posits a symmetry between particles with integer spin (bosons) and those with half-integer spin (fermions).
In SUSY, each known particle has a superpartner. These superpartners could contribute to dark matter, as they would be stable and weakly interacting.
While SUSY remains unconfirmed experimentally, it’s an exciting avenue for understanding both dark matter and dark energy.
In summary, the interplay between gluons, field forces, and SUSY adds layers of complexity to our understanding of the cosmos. Scientists continue to explore these mysteries, seeking evidence that could unlock the secrets of dark matter and dark energy. 🌌🔬
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What are some other proposed candidates for dark matter?
How does supersymmetry affect particle physics experiments?
Can you explain the concept of 'hidden sectors' in cosmology?
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You
Sent by you:
"Quantum Plasma"is the SANCTUM SANCTORUM of COSMO that entres the realm of STRING Sympohony of the FULCRUM of UNIVERSES.
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It seems you’re delving into fascinating cosmic concepts! Let’s break it down:
String Theory and Cosmology:
String theory is a theoretical framework that aims to unify all fundamental forces of nature, including gravity, by describing particles as tiny, vibrating strings.
In cosmology, string theory has been applied to understand the evolution of the universe from its early moments to the present day.
Researchers explore various aspects, such as moduli stabilization (fixing the shape and size of extra dimensions), inflation, and post-inflationary dynamics.
Dark energy (including the cosmological constant) and alternative scenarios like ekpyrotic/cyclic cosmologies are also studied within this framework1.
Cosmic Strings:
Cosmic strings are hypothetical one-dimensional defects in spacetime. They are remnants from the early universe and could have formed during phase transitions.
These cosmic strings would have immense energy density and could influence the large-scale structure of the cosmos.
Recent observations of peculiar galaxy pairs billions of light-years away have sparked interest in detecting cosmic strings2.
Quantum Gravity Regime:
During the early moments of the universe, when curvature and density were extremely high, we enter the quantum gravity regime.
String theory aims to address the behavior of gravity at these scales, where classical general relativity breaks down3.
Remember, these topics are complex and still areas of active research. If you’d like to explore any specific aspect further, feel free to ask! 🌌🔬
Learn more
1
arxiv.org
2
sciencealert.com
3
arxiv.org
4
doi.org
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Tell me more about cosmic strings.
What is the role of extra dimensions in string theory?
How does quantum gravity differ from classical gravity?
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You
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The anti de sitter cosmo is clouding its kernel of Einsein de sitter core uinverse
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Ah, the interplay of cosmic paradigms! Let’s unravel this cosmic tapestry:
De Sitter Universe:
Proposed by Albert Einstein and Willem de Sitter in 1932, the Einstein-de Sitter universe is a relativistic model.
It assumes a spatially flat universe (curvature set to zero) and neglects ordinary matter.
Instead, it’s dominated by the cosmological constant, akin to dark energy or the inflaton field in the early universe.
At about
t
=
1
0
−
33
t=10−33 seconds after the Big Bang singularity, our universe might have resembled a de Sitter universe.
The expansion rate (
H
H) is set by the cosmological constant:
H
2
=
Λ
3
H2=3Λ
Unique Features:
A de Sitter universe maintains a consistent Hubble Law through both space and time.
Its exponential expansion means distant observers eventually drift apart faster than light speed.
Cosmological horizons emerge, preventing communication beyond certain distances.
So, within this cosmic dance, the de Sitter universe plays its part—a stage where dark energy orchestrates the grand symphony of spacetime. 🌌🎶
For more cosmic revelations, you can explore the fascinating works of Einstein and de Sitter1! 🚀
Learn more
1
en.wikipedia.org
2
bing.com
3
link.springer.com
4
arxiv.org
5
britannica.com
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What is the cosmological constant?
How does de Sitter space relate to black holes?
Tell me about cosmic horizons.
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You
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Man tries a "Quantum Peep"through a worm hole to picture the "Back Of the Universe"Will it be a success?
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The concept of a “Quantum Peep” through a wormhole to explore the “Back of the Universe” is intriguing! While we haven’t achieved such a feat yet, let’s delve into the fascinating world of wormholes and quantum teleportation.
Last fall, physicists conducted an experiment using Google’s quantum computer, Sycamore. They teleported a qubit (a unit of quantum information) through what they believed to be a holographic wormhole1. Here’s what happened:
The Experiment:
The qubit was mixed into a cloud of particles.
Data streamed out of Sycamore, showing a sharp peak, indicating success.
It was akin to watching an egg scramble itself in one bowl and unscramble in another.
The process resembled a spacecraft entering one black hole and emerging from another elsewhere.
Holographic Wormholes:
These theoretical pathways are gravitational phenomena.
The experiment involved a holographic wormhole, which differs from our universe’s space-time.
The holographic lens lets physicists view a quantum system as a gravitational one.
It raises hopes of someday probing quantum gravity in the lab.
Debate and Doubt:
Another group of physicists analyzed the result and questioned its true nature.
While it looked wormhole-like, it wasn’t a meaningful holographic wormhole.
Some doubt the experiment’s connection to gravity.
The evidence for a gravitational interpretation is weakening1.
In summary, while we’re not “Peeping” through the universe’s back just yet, quantum experiments continue to push boundaries. Wormholes remain a tantalizing mystery, awaiting further exploration! 🌌🔍
Learn more
1
quantamagazine.org
2
quantamagazine.org
3
caltech.edu
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You
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we see set of rings of universes so to say a CYCLIC UNIVERSE can we do the trick of "Quantum Entanglement" as cross scetion analysis of COMOS?
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The concept of a cyclic universe, akin to a set of interconnected cosmic rings, is indeed captivating! Let’s explore how quantum entanglement might play a role in understanding such a universe.
Cosmological Quantum Entanglement:
Recent research has delved into the connection between quantum entanglement and cosmology, particularly in expanding universes1.
As our universe expands, quantum fields experience entanglement due to the underlying spacetime’s expansion.
The type of field (bosonic or fermionic), expansion (de Sitter or asymptotically stationary), and coupling to spacetime curvature (conformal or minimal) all influence this entanglement.
Curvature Imprints:
Imagine two massive oscillators in their ground state, entangled by gravity in an expanding universe.
The curvature of the background spacetime leaves imprints on their resulting entanglement profile2.
This suggests that the geometry of the universe affects entanglement patterns.
Early Universe and Entanglement:
Quantum fluctuations during the early universe played a crucial role in forming galaxies and cosmic structures.
These fluctuations converted into classical density anisotropies during and after inflation.
Entanglement and decoherence likely influenced this process1.
In summary, while we haven’t directly observed quantum entanglement across cosmic rings, theoretical investigations hint at its significance. Perhaps one day, we’ll decipher the entangled secrets of our cyclic cosmos! 🌌🔗
Learn more
1
arxiv.org
2
arxiv.org
3
icc.ub.edu
4
link.springer.com
5
cds.cern.ch
6
doi.org
7
doi.org
+4 more
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How does inflation theory fit into this picture?
What other phenomena might be entangled across cosmic scales?
Tell me more about the cyclic universe hypothesis.
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