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Universe: from Beginning to End . Brief History of Universe form Birth to Death. OR. What is matter?.
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Universe: from Beginning to End Brief History of Universe form Birth to Death OR
What is matter? • Experiments at Fermilab have helped defined the proton, a particle inside the atom’s nucleus, and proton’s substructure of quarks. Study the top quark may give clues to the scientific mystery of why matter has mass
Neutron n p + e- +ne Decay time t~ 16 minutes
Bineutron g+2D 2n + p+ or g+2D n + n + p+ m- + 2D 2n + nm or m- + 2D n + n + nm
Trineutron 3n is trineutron a bound state of three neutron?
Tetraneutron 4n is tetraneutron a bound state of four neutron?
g, p, m 2 4He, 3He, 3H Final State:Nucleons in continuum spectrum ds/dW Transition operator
From Elementary Particles to Stars • We discussed the tiniest object in the universe – the neutron, and existence of the bineutron, trineutron and tetraneutron. • Now we leap to the largest – stars especially, neutron stars
History of our Universet=0 The Big Bang • Universe originated in the explosion of a primordial fireball • 0<t<10-43Seconds. General Relativity should not be valid and should be replaced by a new theory which incorporates the principles of quantum theory. We do not know anything about this epoch
10-43 <t<1 Seconds. • During this period the universe expanded and the matter density dropped from about 1092 g/cm3 to ~ 106 g/cm3. • Matter in the Universe consisted primarily of the very high energy elementary particles. Exotic elementary particles (m, p, W, S, K, L) decayed and at the end of this epoch we had “soup” of photons, neutrinos, electrons, positrons, protons, neutrons. • The temperature of the matter cooled to about 1010 0C. • There were about five times as many protons as neutrons
1Second<t<1000 Seconds • Density of the ‘soup” dropped from about 106 g/cm3 to 0.5 g/cm3 • Temperature dropped from ~1010 0C to 109 0C. e-+e+ 2g • During this period was nucleosynthesis: protons and neutrons formed elements: 2D, 4He … p +p 2D + e+ + n p + 2D 3He +g 3He + 3He 4He + p + p Proton-proton cycle : 4p 4He + 2e+ + 2n + 2g 4He + 4He 8Be +g 4He + 8Be 12C +g
1000 Seconds<t< 100,000 Years • The Universe continued expanded rapidly and cool • The important constituents of the soup were photons, protons, helium nuclei and free electrons. • At the end of this epoch, the temperature of the “soup” dropped to ~ 4000 0C and the electrons combined with the protons, helium nuclei to form neutral hydrogen and helium atoms. • There were no longer any charged particles and electromagnetic radiation decoupled from matter
Atomic Nucleus Atomic Structure
100,000 Years<t<8 to 18 Billion Years (Present Era) • Universe continued to expand. Electromagnetic radiation fills the entire Universe. And the temperature dropped to ~ 3 0K. • Small inhomogeneities in the mater distribution began to grow under their own self-gravitation attraction. • The galaxies, star clusters and stars formation.
The process of stellar evolution from the birth to the death of the star depends on the mass of the star. • If the star has mass less than about 1.4 solar masses the star collapses under the action of gravity and becomes awhite dwarf • If mass is greater than 1.4 solar mass the stars follow to quite different scenario. High-energy collisions breaking iron into helium nuclei, and eventually into protons and neutrons 56Fe 13 4He + 4n 4He 2p + 2n Then e- + p n +n The star begins to contract rapidly toward forming an enormously dense neutron star • The core of a neutron star contracts to the point at which all neutrons are as close together as they are in a nucleus.
Black Holes If the mass M of the star is compressed to such small size that the escape speed exceeds the speed of light, the mass M forms a BLACK HOLE
Big Crunch • Universe stops expanding at some time in the future, will then contract again down to its initial, highly condensed state in a finite time • …starts another expansion phase • Or will it just go on contracting and then … … newBig Bang
