Formation of universe, blackhole and 1st order phase transition
Idea Last time I focused on the relation between particle production, phase transition and black hole To understand dark energy I studied cosmology, then studied inflation, black hole and bubble nucleation.
Key idea Key idea particle production ~ universe formation ~ black hole formation ~ first order phase transition (bubble nucleation) Further key words surface tension , cosmological constant , entropy , pressure
Particles, Black hole and phase transition Particle production – Phase transition - Higgs mechanism can be described as a phase transition. Particle – Black hole - Black hole can only have three own properties; Mass, angular momentum and charge (which is same with indistinguishable quantum particle) - In QFT, particle considered as a point particle. If a energy concentrated on a point, it should be a black hole. - Recent AdS/CFT says that black hole in bulk Ads space can correspond to gauge field particle at boundary Black hole –phase transition - Black hole have thermodynamic properties. It’s formation can also be described with phase transition
Bubble nucleation and 1st order phase transition
Bubble nucleation and 1st order phase transition Metastable, false vaccum Thermal fluctuation, Energy fluctuation, Quantum fluctuation
Surface tension of bubble
Energy of a bubble Shrink Grow releasing latent heat The probability of a bubble to appear spontaneously in the heat bath in equilibrium at temperature T
Inflation
Expanding Universe model Robertson-Walker Metric Conformal time - Hubble parameter
Friedmann Equation Continuity Equation Friedmann Equation
Components of universe
First order phase transition, inflation and inflaton Inflation of universe can be explained with a 1-nd order phase transition (Why not 2-nd order phase transition? Phase translate smoothly => no bubble, no boudary Inflaton : The inflaton field is a hypothetical scalar field that is theorized to drive cosmic inflation in the very early universe.
The stress-energy tensor of the scalar field Friedmann equation
Parameters of Inflation Slow-roll approximation
Reheating Reheating Inflaton decay. - Inflation ends when the potential steepens and the inflaton field picks up kinetic energy. The energy in the inflaton sector then has to be transferred to the particles of the Standard Model. This process is called reheating and starts the Hot Big Bang. Inflaton decay. - To avoid that the universe ends up empty, the inflaton has to couple to Standard Model fields. The energy stored in the inflaton field will then be transferred into ordinary particles.
Higgs field as a inflaton Can Higgs field potential can be inflaton potential? Original version of Higgs potential can not be a inflaton, because it correspond to second order phase transition potential. There several modification Higgs potential as a inflaton. -> if it lagrangian have odd orders of field, or if there are other scalar field, first order phase trasition possible.
Do we live in a black hole?
Do we live in a black hole? There several papers guessing that we might be in a black hole. (We are live in a black hole, or our universe is a black hole) Original black hole have a mass sigurarity at the center, and vaccuum at the all of other spacetime position. (If some mass density is higher than some point, it collapes to a sigularity) However if there is a negative pressure that defence collapsing to sigularity, black hole can have finite density. Or other way, in a black hole role of space coordinate and time coordinate changes. Singularity can be interpreted as a time singularity like big bang.
Black hole formation and bubble nucleation How does the black hole forms? What is the mechanism of increasing of black hole? There are possibility that black hole formation also can be described using bubble nucleation
Surface tension of Black hole If we regard black as a vacuum bubble, we might think that the surface tension of it. (Originally, black hole only have a surface gravity) Relation between surface tension and difference of pressure
Surface tension and black hole Surface tension ~ Surface gravity ~ Black hole Entropy ? There also some papers that make a relation surface tension and cosmological constant. It can be interpreted that it is related to kind of entropic force.
Black hole increasing speed Increasing black hole in vacuum is similar to increasing universe by vacuum energy.
Some ideas Density of black hole which have 100millions mass is similar to density of water. The bigger the black hole is, the lower the density is. A super massive black hole is a source of dark matter?
Black hole radius = Hubble radius Data analytical fact Schwartschilds radius with universe mass = Hubble radius of universe -> our universe is a black hole? If we assume that our universe is a black hole, flatness problem can be solved.
Universe Black hole and flatness problem known fact If we assume that the universe is a black hole, => Flatness problem can be solved
Universe Mass = Black hole Mass If we assume that our universe is a black hole,
Multiverse and bubble like universe
Meaning of Lagrangian
Meaning of Lagrangian Dimension of Unit => [Lagrangian density]=[Energy density]=[Pressure] In fluid mechanics, Pressure for ‘Incompressible fluid’ = Hydrostatic Pressure + Hydrodynamic Pressure Hydrostatic Pressure = Pressure for maintaining that state Hydrodynamic Pressure = Pressure for making kinetic flow
Claim Potential Energy = Compressed energy (by external force) => Force(Pressure) for getting out that state (or the resistance to the outside when viewed from the inside of the system.) (-Potential Energy) = Force to prevent particles from escaping out of the system. (Pressure for keeping) Lagrangian = Resistance or pressure which particle receiving. For example, pressing and moving your finger with the rubber plate increases the resistance (pressure) felt on your finger. That is, pressing pressure correspond to potential energy, and moving pressure correspond the kinetic energy.
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Consideration When the rate of change of x is proportional to –x
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