Where Did the Universe Come From?
http://edu-observatory.org/olli/42/Week2.html



Where Did the Universe Come From?  (2 min)
  Kaplan_Universe.mp4

  



Expanding Universe

  

Properties of Photons
  


   
  These horizontal lines represent energy levels within the
  hydrogen atom. Greater energy transitions produce shorter
  wavelengths. The Balmer series transitions produce spectral
  lines in the visible light range (400-700 nm).



Spectral Lines (Continuous)
  
Spectral Lines (Hydrogen Emission)
  
Spectral Lines (Hydrogen Absorption)
  

  Not only can we determine the elements and molecules from
  these spectrum lines, but from any Doppler shift of those
  lines, we can measure the velocities of the source with
  respect to us, and, therefore, measure the rotations of
  galaxies, the rotations of stars, measure how fast galaxies
  are receding away from us and so on.








Cosmic Microwave Background (CMB) Imprint of Quantum fluctuations? Baby Picture 382,000 years after the Big Bag

Cosmic Inflation In the context of cosmic inflation, quantum fluctuations are speculated to play a crucial role in two main ways: 1. Seeding Structure Formation: Quantum fluctuations during inflation are stretched to macroscopic scales due to the rapid expansion. These fluctuations become the seeds for the large-scale structure of the universe, leading to the formation of galaxies and clusters. 2. Potentially Triggering Inflation: Some theoretical models propose that quantum fluctuations could cause the inflaton field to reach a high-energy state in a localized region. This fluctuation could push the field over a potential barrier, initiating inflation in that region—a process similar to quantum tunneling. Cosmic inflation explains several key features of the universe—its flatness, uniformity, and the distribution of structures—through the idea of a rapid, early expansion. While direct evidence of inflation (such as the detection of primordial gravitational waves) is still sought, current observational data strongly support its predictions. For example, inflation predicts a specific pattern of polarization in the CMB called B-mode polarization, which would be caused by primordial gravitational waves. A Polarizing Discovery About the Big Bang! (2 min) Polarizing_Discovery.mp4 In 2014, the BICEP2 experiment claimed to have detected this signal, but it was later shown to be due to interstellar dust. However, ongoing experiments (such as CMB-S4) aim to make this detection, which would provide strong direct evidence for inflation. Gravitational Waves https://physurls.com/?q=gravitational%2Bwaves&btnG=phyurls Evidence for Inflation https://arxiv.org/pdf/2407.03577v1 Background Imaging of Cosmic Extragalactic Polarization (BICEP) http://bicepkeck.org Measuring the B-modes of CMB polarization is crucial because they can provide evidence for cosmic inflation through primordial gravitational waves, map the distribution of dark matter via gravitational lensing, and test theories of gravity. Additionally, B-modes help constrain neutrino masses and offer insights into the Epoch of Reionization, making them key to understanding the early universe and fundamental physics.

Gravitational Waves by Monitoring Pulsars Strong evidence for the discovery of a gravitational wave background https://www.nature.com/articles/s42254-024-00711-6 Pulsar timing arrays worldwide have provided 2σ–4σ evidence for the detection of a gravitational wave signal in the form of a stochastic gravitational wave background consistent with astrophysical expectations. By monitoring the deviations in the times of arrival of the radio frequency pulses of a large number of pulsars for many years it is possible to measure the gravitational redshift caused by gravitational waves emitted by far-away sources and travelling through spacetime between the pulsars and the Earth. The signal can be explained in terms of the superposition of gravitational waves emitted by supermassive black hole binaries at the centre of galaxies; however, a more speculative origin, rooted in processes taking place in the very early Universe, for example at the quantum chromodynamics energy scale, is not excluded. An Enormous Gravity ‘Hum’ Moves Through the Universe https://www.quantamagazine.org/an-enormous-gravity-hum-moves-through-the-universe-20230628/

Science News Media A new analysis of the South Pole-based telescope’s observations has all but ruled out several popular models of inflation. https://www.symmetrymagazine.org/article/bicep3-tightens-the-bounds-on-cosmic-inflation Gravitational Waves https://physurls.com/?q=gravitational%2Bwaves&btnG=phyurls Early Universe https://physurls.com/?q=early%2Buniverse&btnG=physurls The Year in Physics (2024) https://www.quantamagazine.org/the-year-in-physics-20241217/ Latest Science (all sciences) http://edu-observatory.org/media/Science/index.html#LATEST ChatGPT https://chat.openai.com/chat DuckDuckGo
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