Description

Book Synopsis

The book employs oscillatory dynamical systems to represent the Universe mathematically via constructing classical and quantum theory of damped oscillators. It further discusses isotropic and homogeneous metrics in the Friedman-Robertson-Walker Universe and shows their equivalence to non-stationary oscillators. The wide class of exactly solvable damped oscillator models with variable parameters is associated with classical special functions of mathematical physics. Combining principles with observations in an easy to follow way, it inspires further thinking for mathematicians and physicists.

Contents
Part I: Dissipative geometry and general relativity theory
Pseudo-Riemannian geometry and general relativity
Dynamics of universe models
Anisotropic and homogeneous universe models
Metric waves in a nonstationary universe and dissipative oscillator
Bosonic and fermionic models of a Friedman–Robertson–Walker universe
Time dependent constants in an oscillatory universe

Part II: Variational principle for time dependent oscillations and dissipations
Lagrangian and Hamilton descriptions
Damped oscillator: classical and quantum theory
Sturm–Liouville problem as a damped oscillator with time dependent damping and frequency
Riccati representation of time dependent damped oscillators
Quantization of the harmonic oscillator with time dependent parameters

Oscillatory Models in General Relativity

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    Order before 4pm tomorrow for delivery by Wed 17 Jun 2026.

    A Hardback by Esra Russell, Oktay K. Pashaev

    15 in stock


      View other formats and editions of Oscillatory Models in General Relativity by Esra Russell

      Publisher: De Gruyter
      Publication Date: 20/11/2017
      ISBN13: 9783110514957, 978-3110514957
      ISBN10:

      Description

      Book Synopsis

      The book employs oscillatory dynamical systems to represent the Universe mathematically via constructing classical and quantum theory of damped oscillators. It further discusses isotropic and homogeneous metrics in the Friedman-Robertson-Walker Universe and shows their equivalence to non-stationary oscillators. The wide class of exactly solvable damped oscillator models with variable parameters is associated with classical special functions of mathematical physics. Combining principles with observations in an easy to follow way, it inspires further thinking for mathematicians and physicists.

      Contents
      Part I: Dissipative geometry and general relativity theory
      Pseudo-Riemannian geometry and general relativity
      Dynamics of universe models
      Anisotropic and homogeneous universe models
      Metric waves in a nonstationary universe and dissipative oscillator
      Bosonic and fermionic models of a Friedman–Robertson–Walker universe
      Time dependent constants in an oscillatory universe

      Part II: Variational principle for time dependent oscillations and dissipations
      Lagrangian and Hamilton descriptions
      Damped oscillator: classical and quantum theory
      Sturm–Liouville problem as a damped oscillator with time dependent damping and frequency
      Riccati representation of time dependent damped oscillators
      Quantization of the harmonic oscillator with time dependent parameters

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