Thursday, November 17, 2022

3746 - GRAVITY - the theory is incomplete?

  -  3746  -  GRAVITY  -  the theory is incomplete?   Something is wrong with Einstein's theory of gravity?  Albert Einstein’s theory of general relativity has been remarkably successful in describing the gravity of stars and planets, but it doesn’t seem to apply perfectly on all scales.


---------------------  3746  -  GRAVITY  -  the theory is incomplete?

-   Everything in the universe has gravity. Yet this most common of all fundamental forces is also the one that presents the biggest challenges to physicists. Albert Einstein’s theory of general relativity has been remarkably successful in describing the gravity of stars and planets, but it doesn’t seem to apply perfectly on all scales of the Universe.  There s something that we don’t know?  Duh!

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- General relativity has passed many years of observational tests, from Eddington’s measurement of the deflection of starlight by the Sun in 1919 to the recent detection of gravitational waves. However, gaps in our understanding start to appear when we try to apply it to extremely small distances, where the laws of quantum mechanics operate, or when we try to describe the entire universe.

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-   Astronomers have now tested Einstein’s theory on the largest of scales. The theory of general relativity may need to be tweaked on this universe scale.  “Quantum theory” predicts that empty space, the vacuum, is packed with energy. We do not notice its presence because our devices can only measure changes in energy rather than its total amount.

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-   According to Einstein, the “vacuum energy” has a repulsive gravity, it pushes the empty space apart.   In 1998, it was discovered that the expansion of the universe is in fact accelerating. However, the amount of vacuum energy, or “dark energy” as it has been called, necessary to explain the acceleration is many orders of magnitude smaller than what quantum theory predicts.

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-  Hence the big question, dubbed “the old cosmological constant problem”, is whether the vacuum energy actually gravitates,  exerting a gravitational force and changing the expansion of the universe.

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-  If yes, then why is its gravity so much weaker than predicted? If the vacuum does not gravitate at all, what is causing this cosmic acceleration?

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-  We don’t know what dark energy is, but we need to assume it exists in order to explain the universe’s expansion. Similarly, we also need to assume there is a type of invisible matter presence, called “dark matter“, to explain how galaxies and clusters evolved to be the way we observe them today.

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-  These assumptions are baked into scientists’ “standard cosmological theory“, called the “lambda cold dark matter” (LCDM) model.  This model is suggesting there is 70% dark energy, 25% dark matter and 5% ordinary matter in the universe. And this model has been remarkably successful in fitting all the data collected by cosmologists over the past 20 years.

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-  But the fact that most of the universe is made up of “dark forces” and substances, taking odd values that don’t make sense, has prompted many physicists to wonder if Einstein’s theory of gravity needs modification to describe the entire universe.

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-  A few years ago it became apparent that different ways of measuring the rate of cosmic expansion, dubbed the “Hubble constant of universe expansion“, give different answers.  This problem is known as the “Hubble tension“.

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-  The disagreement, or tension, is between two values of the Hubble constant. One is the number predicted by the LCDM cosmological model, which has been developed to match the light left over from the Big Bang.  The cosmic microwave background radiation. 

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-  The other is the expansion rate measured by observing exploding stars known as supernovas in distant galaxies.  Many theoretical ideas have been proposed for ways of modifying LCDM to explain the Hubble tension. Among them are “alternative gravity theories“.

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-  We can design tests to check if the universe obeys the rules of Einstein’s theory. General relativity describes gravity as the curving or warping of space and time, bending the pathways along which light and matter travel. It predicts that the trajectories of light rays and matter should be bent by gravity in the same way.

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-   To find out whether general relativity is correct on large scales astronomers set out to simultaneously investigate three aspects of it. These were the “expansion of the universe“, “the effects of gravity on light” and “the effects of gravity on matter“.

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-  Using a statistical method known as the “Bayesian inference” astronomers reconstructed the gravity of the universe through cosmic history in a computer model based on these three parameters. They could estimate the parameters using the cosmic microwave background data from the Planck satellite, supernova catalogues as well as observations of the shapes and distribution of distant galaxies by the SDSS and DES telescopes. They then compared our reconstruction to the prediction of the LCDM model,  Einstein’s model.

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-  Astronomers found interesting hints of a possible mismatch with Einstein’s prediction, however,  with rather low statistical significance. This means that there is nevertheless a possibility that gravity works differently on large scales, and that the theory of general relativity may need to be tweaked.

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-  The study also found that it is very difficult to solve the Hubble tension problem by only changing the theory of gravity. The full solution would probably require a new ingredient in the cosmological model, present before the time when protons and electrons first combined to form hydrogen just after the Big Bang, such as a special form of dark matter, an early type of dark energy or primordial magnetic fields. Or, there’s an unknown systematic error in the data.  Go figure?

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-   Astronomers will be using these statistical methods to continue tweaking general relativity, exploring the limits of modifications, paving the way to resolving some of the open challenges in cosmology.  We don’t know everything yet?

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 November 13, 2022         GRAVITY  -  the theory is incomplete?                3746                                                                                                                                  

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--------------------- ---  Thursday, November 17, 2022  ---------------------------






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