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Tag: dark matter

  • Dark Matter: Scientists Consider Alternative Theories with ‘Mirror Universe’

    Dark Matter: Scientists Consider Alternative Theories with ‘Mirror Universe’

    Scientists are exploring the possibility of a ‘mirror universe’ as a potential explanation for the elusive dark matter that remains undetected in our universe. This theory proposes that dark matter exists in a parallel realm, where atoms failed to form during the Big Bang’s nucleosynthesis.

    Dark matter

    Dark matter is thought to make up about 85% of the universe ‍and it has puzzled scientists due to its invisibility and resistance to detection. Traditional theories have fallen short in explaining its nature which leads researchers to consider alternative ideas. One such theory suggests the existence of a ‘dark mirror’ universe where dark matter resides.

    In this hypothetical scenario, every interaction in our universe would have a corresponding interaction in the dark matter universe establishing a new kind of universal symmetry. While conventional matter in our universe consists of protons and neutrons with roughly equal mass, the ‘dark mirror’ universe may feature different properties, potentially leading to the formation of ‘dark neutrons’ instead of protons.

    The concept proposes that these ‘dark neutrons’ could form bound states and larger nuclei during a hypothetical ‘dark Big Bang Nucleosynthesis.’ These nuclei, composed of pure ‘dark neutrons,’ could serve as valid candidates for dark matter.

    This idea builds upon previous research suggesting the existence of a ‘dark periodic table’ with its own set of elements in the ‘dark mirror’ universe. While speculative, this theory offers a new perspective on the nature of dark matter and its potential origins.

    Some scientists have proposed that stars composed of dark matter could exist in this alternate universe. These ‘dark matter’ stars might interact differently with normal matter, offering a potential means of observation. The existence of such stars remains uncertain, and their detection would require further investigation.

  • New Study Challenges Existence of Dark Matter in the Universe

    New Study Challenges Existence of Dark Matter in the Universe

    Professor Rajendra Gupta from the University of Ottawa suggests that dark matter might not exist by analyzing changes in forces over time and the behavior of light in the universe. Dark matter is considered as a mysterious substance and it is believed to make up a significant part of the cosmos. It has been a fundamental component of the traditional model of the universe alongside ‘normal matter’ and ‘dark energy.’

    Dark Matter

    Dark matter does interact with electromagnetic radiation and has never been directly observed. It is inferred from its gravitational effects on visible matter. Gupta’s study questions the necessity of dark matter in explaining these phenomena.

    A recent study proposes an alternative view and it is suggesting that our universe may not contain dark matter. This challenges our current understanding of the universe and the role of dark matter within it.

    Rajendra Gupta’s study utilizes a combination of the covarying coupling constants (CCC) and “tired light” (TL) theories to develop a model (CCC+TL) that explains cosmic phenomena without the need for dark matter.

    Accelerated expansion of the universe could be attributed to the weakening forces of nature as the universe expands, rather than dark energy as previously thought. Gupta’s model proposes an alternative explanation for observed cosmological phenomena.

    The study’s findings challenge the conventional understanding of dark matter and its role in the universe. Gupta’s research suggests that dark energy may not be required to explain the accelerated expansion of the universe. His study is the first to eliminate the cosmological existence of dark matter while remaining consistent with key cosmological observations.

    There are several papers questioning the existence of dark matter, but his study provides a unique perspective. The study titled “Testing CCC+TL Cosmology with Observed Baryon Acoustic Oscillation Features” was published in the Astrophysical Journal.

  • Einstein’s Legacy: Dark Energy and the Expanding Universe

    Einstein’s Legacy: Dark Energy and the Expanding Universe

    Only five percent of the universe is visible to the human eye, while the remaining 95 percent is composed of mysterious entities known as dark matter and dark energy. These concepts, though challenging, have led to remarkable discoveries in the realm of science.

    dark matter

    The universe is in a constant state of motion, either expanding or contracting, as proven by Einstein. His research demonstrated that galaxies are steadily moving away from us, indicating the ongoing expansion of the universe. Intriguingly, this expansion is accelerating over time, defying the gravitational forces at play.

    This phenomenon gave rise to the concepts of dark energy and dark matter. While the specifics of dark energy remain a subject of ongoing research, scientists have confirmed its existence and are exploring its impact on the universe. Dark energy constitutes a significant portion, around 70 percent, of the total mass in the universe.

    In 1988, scientists formulated equations revealing an excess pressure countering gravity in the cosmos. Initially referred to as the cosmological constant, it was later identified as a component of dark energy, validating Einstein’s equations.

    Einstein himself played a pivotal role in this discovery, acknowledging the contributions of scientist Hubble. Hubble’s groundbreaking work provided compelling evidence regarding the cosmos’ expansion. Though the intricacies of dark energy are not fully understood, these revelations showcase the enigmatic nature of the universe and our evolving comprehension of its fundamental forces.