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Cosmic secrets [[electronic resource] ] : basic features of reality / / Wolfram Schommers
| Cosmic secrets [[electronic resource] ] : basic features of reality / / Wolfram Schommers |
| Autore | Schommers W (Wolfram), <1941-> |
| Pubbl/distr/stampa | Singapore ; ; Hackensack, N.J., : World Scientific, c2012 |
| Descrizione fisica | 1 online resource (400 p.) |
| Disciplina |
501
523.1 |
| Soggetto topico |
Cosmology
Space and time Quantum cosmology Quantum theory |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-35440-2
9786613555243 981-283-644-6 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword; Contents; 1. The Absolute Truth; 1.1 Final Truth; 1.2 Two Important Questions; 1.3 Why Does the Cosmos Exist?; 1.4 Are the Laws of Nature Independent of the Observer's Own Nature?; 1.5 Self-Indulgence was Dominant; 1.6 Newton's Mechanics and Its Overestimation; 1.6.1 Instead of Gods, Capricious Fairies etc. We Have the Equations of Motion; 1.6.2 Lamettrie and the Monistic Picture of Man; 1.6.3 Conclusion; 1.7 Scientific Realism; 1.8 An Important Principle: As Little Outside World as Possible; 1.9 Inside World and Outside World; 1.9.1 One-to-One Correspondence?
1.9.2 Cinema and Cinema Ticket1.9.3 Summary; 1.10 Principal Questions; 1.10.1 Are Picture-Independent Physical Considerations Possible?; 1.10.2 Why Do We and the Cosmos Exist?; 1.11 How Does Science Progress?; 1.11.1 Science Progresses by Eliminating the Number of Unanswered Questions; 1.11.2 Principle of Propagation of Questions; 1.11.3 Substitution Instead of Successive Refinement; 1.11.4 Summary; 1.12 Final Remarks; 2. The Projection Principle; 2.1 The Elements of Space and Time; 2.2 Relationship between Matter and Space-Time; 2.3 Two Relevant Features; 2.3.1 Feature 1; 2.3.2 Feature 2 2.4 Two Kinds of "Objects"2.5 Perception Processes; 2.5.1 The Experiment with Inverting Goggles; 2.5.2 Space and Time Come into Existence by Specific Brain Functions; 2.6 Inside World and Outside World; 2.7 The Influence of Evolution; 2.8 Information in the Picture Versus Information in Basic Reality (Outside Reality); 2.9 Other Biological Systems; 2.10 How Many (Geometrical) Objects can be in Space-Time?; 2.11 Two Types of Space-Time?; 2.12 Summary; 3. Fictitious Realities; 3.1 Conventional Quantum Theory: Critical Remarks; 3.1.1 A Diversity of Opinion 3.1.2 Some Specific Problems within Conventional Quantum Theory3.2 The Projection Principle in Connection with Fictitious Realities; 3.2.1 Alternative Realities; 3.2.2 Relationships; 3.2.3 Sequences; 3.3 Distribution of Information; 3.4 Basic Transformation Effects; 3.4.1 Particles; 3.4.2 Role of Time t; 3.4.3 Non-Local Effects; 3.4.4 Conclusion; 3.5 Pictures within Projection Theory; 3.6 Auxiliary Constructions; 3.6.1 Energy within Conventional Physics; 3.6.2 The Physical Laws of Basic Reality; 3.6.3 Remark; 3.7 Basic Laws; 3.7.1 Stationary Case; 3.7.2 Non-Stationary Case; 3.7.3 Discussion 3.8 Extension of Conventional Quantum Theory3.9 Only Processes are Relevant!; 3.9.1 Free Systems; 3.9.2 Principle of Usefulness; 3.9.3 Real Situation; 3.9.4 Summary; 3.10 Interactions; 3.10.1 What Does Interaction Mean within Projection Theory?; 3.10.2 Delocalized Systems in (p, E)-Space; 3.10.3 Abstract Interaction Laws; 3.11 Distance-Independent Interactions; 3.11.1 General Remarks; 3.11.2 Principal Analysis; 3.11.3 Basic Equations in the Case of Distance-Independent Interactions; 3.11.4 No Exchange of "Space-Time Pieces"; 3.12 Arbitrary Jumps within (r, t )-Space 3.12.1 The (p, E)-Distributions |
| Record Nr. | UNINA-9910457533003321 |
Schommers W (Wolfram), <1941->
|
||
| Singapore ; ; Hackensack, N.J., : World Scientific, c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Cosmic secrets [[electronic resource] ] : basic features of reality / / Wolfram Schommers
| Cosmic secrets [[electronic resource] ] : basic features of reality / / Wolfram Schommers |
| Autore | Schommers W (Wolfram), <1941-> |
| Pubbl/distr/stampa | Singapore ; ; Hackensack, N.J., : World Scientific, c2012 |
| Descrizione fisica | 1 online resource (400 p.) |
| Disciplina |
501
523.1 |
| Soggetto topico |
Cosmology
Space and time Quantum cosmology Quantum theory |
| ISBN |
1-280-35440-2
9786613555243 981-283-644-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword; Contents; 1. The Absolute Truth; 1.1 Final Truth; 1.2 Two Important Questions; 1.3 Why Does the Cosmos Exist?; 1.4 Are the Laws of Nature Independent of the Observer's Own Nature?; 1.5 Self-Indulgence was Dominant; 1.6 Newton's Mechanics and Its Overestimation; 1.6.1 Instead of Gods, Capricious Fairies etc. We Have the Equations of Motion; 1.6.2 Lamettrie and the Monistic Picture of Man; 1.6.3 Conclusion; 1.7 Scientific Realism; 1.8 An Important Principle: As Little Outside World as Possible; 1.9 Inside World and Outside World; 1.9.1 One-to-One Correspondence?
1.9.2 Cinema and Cinema Ticket1.9.3 Summary; 1.10 Principal Questions; 1.10.1 Are Picture-Independent Physical Considerations Possible?; 1.10.2 Why Do We and the Cosmos Exist?; 1.11 How Does Science Progress?; 1.11.1 Science Progresses by Eliminating the Number of Unanswered Questions; 1.11.2 Principle of Propagation of Questions; 1.11.3 Substitution Instead of Successive Refinement; 1.11.4 Summary; 1.12 Final Remarks; 2. The Projection Principle; 2.1 The Elements of Space and Time; 2.2 Relationship between Matter and Space-Time; 2.3 Two Relevant Features; 2.3.1 Feature 1; 2.3.2 Feature 2 2.4 Two Kinds of "Objects"2.5 Perception Processes; 2.5.1 The Experiment with Inverting Goggles; 2.5.2 Space and Time Come into Existence by Specific Brain Functions; 2.6 Inside World and Outside World; 2.7 The Influence of Evolution; 2.8 Information in the Picture Versus Information in Basic Reality (Outside Reality); 2.9 Other Biological Systems; 2.10 How Many (Geometrical) Objects can be in Space-Time?; 2.11 Two Types of Space-Time?; 2.12 Summary; 3. Fictitious Realities; 3.1 Conventional Quantum Theory: Critical Remarks; 3.1.1 A Diversity of Opinion 3.1.2 Some Specific Problems within Conventional Quantum Theory3.2 The Projection Principle in Connection with Fictitious Realities; 3.2.1 Alternative Realities; 3.2.2 Relationships; 3.2.3 Sequences; 3.3 Distribution of Information; 3.4 Basic Transformation Effects; 3.4.1 Particles; 3.4.2 Role of Time t; 3.4.3 Non-Local Effects; 3.4.4 Conclusion; 3.5 Pictures within Projection Theory; 3.6 Auxiliary Constructions; 3.6.1 Energy within Conventional Physics; 3.6.2 The Physical Laws of Basic Reality; 3.6.3 Remark; 3.7 Basic Laws; 3.7.1 Stationary Case; 3.7.2 Non-Stationary Case; 3.7.3 Discussion 3.8 Extension of Conventional Quantum Theory3.9 Only Processes are Relevant!; 3.9.1 Free Systems; 3.9.2 Principle of Usefulness; 3.9.3 Real Situation; 3.9.4 Summary; 3.10 Interactions; 3.10.1 What Does Interaction Mean within Projection Theory?; 3.10.2 Delocalized Systems in (p, E)-Space; 3.10.3 Abstract Interaction Laws; 3.11 Distance-Independent Interactions; 3.11.1 General Remarks; 3.11.2 Principal Analysis; 3.11.3 Basic Equations in the Case of Distance-Independent Interactions; 3.11.4 No Exchange of "Space-Time Pieces"; 3.12 Arbitrary Jumps within (r, t )-Space 3.12.1 The (p, E)-Distributions |
| Record Nr. | UNINA-9910781940503321 |
|
Schommers W (Wolfram), <1941->
|
||
| Singapore ; ; Hackensack, N.J., : World Scientific, c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Cosmic secrets : basic features of reality / / Wolfram Schommers
| Cosmic secrets : basic features of reality / / Wolfram Schommers |
| Autore | Schommers W (Wolfram), <1941-> |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Singapore ; ; Hackensack, N.J., : World Scientific, c2012 |
| Descrizione fisica | 1 online resource (400 p.) |
| Disciplina |
501
523.1 |
| Soggetto topico |
Cosmology
Space and time Quantum cosmology Quantum theory |
| ISBN |
1-280-35440-2
9786613555243 981-283-644-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword; Contents; 1. The Absolute Truth; 1.1 Final Truth; 1.2 Two Important Questions; 1.3 Why Does the Cosmos Exist?; 1.4 Are the Laws of Nature Independent of the Observer's Own Nature?; 1.5 Self-Indulgence was Dominant; 1.6 Newton's Mechanics and Its Overestimation; 1.6.1 Instead of Gods, Capricious Fairies etc. We Have the Equations of Motion; 1.6.2 Lamettrie and the Monistic Picture of Man; 1.6.3 Conclusion; 1.7 Scientific Realism; 1.8 An Important Principle: As Little Outside World as Possible; 1.9 Inside World and Outside World; 1.9.1 One-to-One Correspondence?
1.9.2 Cinema and Cinema Ticket1.9.3 Summary; 1.10 Principal Questions; 1.10.1 Are Picture-Independent Physical Considerations Possible?; 1.10.2 Why Do We and the Cosmos Exist?; 1.11 How Does Science Progress?; 1.11.1 Science Progresses by Eliminating the Number of Unanswered Questions; 1.11.2 Principle of Propagation of Questions; 1.11.3 Substitution Instead of Successive Refinement; 1.11.4 Summary; 1.12 Final Remarks; 2. The Projection Principle; 2.1 The Elements of Space and Time; 2.2 Relationship between Matter and Space-Time; 2.3 Two Relevant Features; 2.3.1 Feature 1; 2.3.2 Feature 2 2.4 Two Kinds of "Objects"2.5 Perception Processes; 2.5.1 The Experiment with Inverting Goggles; 2.5.2 Space and Time Come into Existence by Specific Brain Functions; 2.6 Inside World and Outside World; 2.7 The Influence of Evolution; 2.8 Information in the Picture Versus Information in Basic Reality (Outside Reality); 2.9 Other Biological Systems; 2.10 How Many (Geometrical) Objects can be in Space-Time?; 2.11 Two Types of Space-Time?; 2.12 Summary; 3. Fictitious Realities; 3.1 Conventional Quantum Theory: Critical Remarks; 3.1.1 A Diversity of Opinion 3.1.2 Some Specific Problems within Conventional Quantum Theory3.2 The Projection Principle in Connection with Fictitious Realities; 3.2.1 Alternative Realities; 3.2.2 Relationships; 3.2.3 Sequences; 3.3 Distribution of Information; 3.4 Basic Transformation Effects; 3.4.1 Particles; 3.4.2 Role of Time t; 3.4.3 Non-Local Effects; 3.4.4 Conclusion; 3.5 Pictures within Projection Theory; 3.6 Auxiliary Constructions; 3.6.1 Energy within Conventional Physics; 3.6.2 The Physical Laws of Basic Reality; 3.6.3 Remark; 3.7 Basic Laws; 3.7.1 Stationary Case; 3.7.2 Non-Stationary Case; 3.7.3 Discussion 3.8 Extension of Conventional Quantum Theory3.9 Only Processes are Relevant!; 3.9.1 Free Systems; 3.9.2 Principle of Usefulness; 3.9.3 Real Situation; 3.9.4 Summary; 3.10 Interactions; 3.10.1 What Does Interaction Mean within Projection Theory?; 3.10.2 Delocalized Systems in (p, E)-Space; 3.10.3 Abstract Interaction Laws; 3.11 Distance-Independent Interactions; 3.11.1 General Remarks; 3.11.2 Principal Analysis; 3.11.3 Basic Equations in the Case of Distance-Independent Interactions; 3.11.4 No Exchange of "Space-Time Pieces"; 3.12 Arbitrary Jumps within (r, t )-Space 3.12.1 The (p, E)-Distributions |
| Record Nr. | UNINA-9910827820303321 |
|
Schommers W (Wolfram), <1941->
|
||
| Singapore ; ; Hackensack, N.J., : World Scientific, c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Eternal inflation [[electronic resource] /] / Sergei Winitzki
| Eternal inflation [[electronic resource] /] / Sergei Winitzki |
| Autore | Winitzki Sergei |
| Pubbl/distr/stampa | New Jersey, : World Scientific, c2009 |
| Descrizione fisica | xvii, 218 p. : ill. (some col.) |
| Disciplina | 523.1/8 |
| Soggetto topico |
Expanding universe
Quantum cosmology |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-76036-X
9786612760365 981-283-240-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | 1. Introduction -- 2. Inflationary cosmology. 2.1. The inflationary paradigm. 2.2. Slow-roll inflation and attractors -- 3. Eternal inflation. 3.1. Predictions in eternal inflation. 3.2. Physical justifications of the semiclassical picture -- 4. Stochastic approach to inflation. 4.1. Eternal inflation of random walk type. 4.2. Presence of eternal inflation -- 5. Models with bubble nucleation -- 6. The measure problem and proposed solutions. 6.1. Observer-based measures. 6.2. Regularization for a single reheating surface. 6.3. Regularization for multiple types of reheating surfaces. 6.4. Youngness paradox and "Boltzmann brains" -- 7. The RV measure : first look. 7.1. Reheating-volume cutoff. 7.2. RV cutoff in slow-roll inflation -- 8. The RV measure for random-walk inflation. 8.1. Preliminary results. 8.2. Overview of the results. 8.3. Derivations -- 9. The RV measure for the landscape. 9.1. Regulating the number of terminal bubbles. 9.2. Regulating the total number of bubbles. 9.3. A toy landscape. 9.4. A general landscape -- 10. Conclusion. |
| Record Nr. | UNINA-9910455871503321 |
|
Winitzki Sergei
|
||
| New Jersey, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Eternal inflation [[electronic resource] /] / Sergei Winitzki
| Eternal inflation [[electronic resource] /] / Sergei Winitzki |
| Autore | Winitzki Sergei |
| Pubbl/distr/stampa | New Jersey, : World Scientific, c2009 |
| Descrizione fisica | xvii, 218 p. : ill. (some col.) |
| Disciplina | 523.1/8 |
| Soggetto topico |
Expanding universe
Quantum cosmology |
| ISBN |
1-282-76036-X
9786612760365 981-283-240-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | 1. Introduction -- 2. Inflationary cosmology. 2.1. The inflationary paradigm. 2.2. Slow-roll inflation and attractors -- 3. Eternal inflation. 3.1. Predictions in eternal inflation. 3.2. Physical justifications of the semiclassical picture -- 4. Stochastic approach to inflation. 4.1. Eternal inflation of random walk type. 4.2. Presence of eternal inflation -- 5. Models with bubble nucleation -- 6. The measure problem and proposed solutions. 6.1. Observer-based measures. 6.2. Regularization for a single reheating surface. 6.3. Regularization for multiple types of reheating surfaces. 6.4. Youngness paradox and "Boltzmann brains" -- 7. The RV measure : first look. 7.1. Reheating-volume cutoff. 7.2. RV cutoff in slow-roll inflation -- 8. The RV measure for random-walk inflation. 8.1. Preliminary results. 8.2. Overview of the results. 8.3. Derivations -- 9. The RV measure for the landscape. 9.1. Regulating the number of terminal bubbles. 9.2. Regulating the total number of bubbles. 9.3. A toy landscape. 9.4. A general landscape -- 10. Conclusion. |
| Record Nr. | UNINA-9910780725403321 |
|
Winitzki Sergei
|
||
| New Jersey, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Eternal inflation / / Sergei Winitzki
| Eternal inflation / / Sergei Winitzki |
| Autore | Winitzki Sergei |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | New Jersey, : World Scientific, c2009 |
| Descrizione fisica | xvii, 218 p. : ill. (some col.) |
| Disciplina | 523.1/8 |
| Soggetto topico |
Expanding universe
Quantum cosmology |
| ISBN |
1-282-76036-X
9786612760365 981-283-240-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | 1. Introduction -- 2. Inflationary cosmology. 2.1. The inflationary paradigm. 2.2. Slow-roll inflation and attractors -- 3. Eternal inflation. 3.1. Predictions in eternal inflation. 3.2. Physical justifications of the semiclassical picture -- 4. Stochastic approach to inflation. 4.1. Eternal inflation of random walk type. 4.2. Presence of eternal inflation -- 5. Models with bubble nucleation -- 6. The measure problem and proposed solutions. 6.1. Observer-based measures. 6.2. Regularization for a single reheating surface. 6.3. Regularization for multiple types of reheating surfaces. 6.4. Youngness paradox and "Boltzmann brains" -- 7. The RV measure : first look. 7.1. Reheating-volume cutoff. 7.2. RV cutoff in slow-roll inflation -- 8. The RV measure for random-walk inflation. 8.1. Preliminary results. 8.2. Overview of the results. 8.3. Derivations -- 9. The RV measure for the landscape. 9.1. Regulating the number of terminal bubbles. 9.2. Regulating the total number of bubbles. 9.3. A toy landscape. 9.4. A general landscape -- 10. Conclusion. |
| Record Nr. | UNINA-9910811306803321 |
|
Winitzki Sergei
|
||
| New Jersey, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The holographic anthropic multiverse [[electronic resource] ] : formalizing the complex geometry of reality / / Richard L Amoroso, Elizabeth A Rauscher
| The holographic anthropic multiverse [[electronic resource] ] : formalizing the complex geometry of reality / / Richard L Amoroso, Elizabeth A Rauscher |
| Autore | Amoroso Richard L |
| Pubbl/distr/stampa | Singapore ; ; Hackensack, NJ, : World Scientific, c2009 |
| Descrizione fisica | 1 online resource (510 p.) |
| Disciplina | 523.1 |
| Altri autori (Persone) | RauscherElizabeth A |
| Collana | K & E series on knots and everything |
| Soggetto topico |
Quantum cosmology
Anthropic principle Supersymmetry |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-75773-3
9786612757730 981-283-931-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents; Dedication; Preface; References; 1. Demise of the Big Bang - A Philosophical Conundrum; 1.1 Philosophical Overview; THE HORIZON PROBLEM; THE FLATNESS PROBLEM; DENSITY FLUCTUATION; EX NIHILO CREATION PROBLEM; LARGE SCALE STRUCTURE & AGE OF UNIVERSE PROBLEM; COSMOLOGICAL CONSTANT - DARK ENERGY PROBLEM; QUASAR REDSHIFT-LUMINOSITY PROBLEM; OTHER PROBLEMS; 1.2 A New Cosmological Horizon.; References.; 2. Extending the Standard Model: Towards the Ultimate Evolution of String Theory; 2.1 Pre-Ambulatory Hoopla; 2.2 Ultimate Evolution of M-Theory; 2.3 String/Brane Dynamics.
2.4 New Horizons Beyond the Standard ModelReferences.; 3. Fundamental Parameters for a Continuous-State Holographic Anthropic Multiverse; 3.1 Introduction to the Cosmological Issues; 3.2 Clarification of Pertinent Cosmological Nomenclature; MULTIVERSE COSMOLOGY; ANTHROPIC PRINCIPLE; HOLOGRAPHIC PRINCIPLE; 3.3 Parallel Interpretations of Cosmological Data; 3.4 Euclidean/Minkowski Geometry as Basis for Observed Reality.; 3.5 Philosophy of Space in HAM Cosmology - Origin of Structure.; 3.6 Space: Relational Versus Absolute.; 3.7 Physical Cosmology of Fundamental Least Cosmological Unit 3.8 Holographic Anthropic Multiverse Cosmology (HAM)3.9 Overview of the Formalism for Noetic Cosmology; 3.10 Transformation of Space into Time; 3.11 Energy Dependent Spacetime Metric.; 3.12 The Wheeler Geon Concept Extended to Noetic Superspace; 3.13 The Hyper-Geon Domain of HAM Noetic Field Theory; 3.14 Conclusions.; References.; 4. An Alternative Derivation of String Tension Determining a Unique Background Independent String Vacuum; 4.1 Introductory Prolegomena; 4.2 Scaling in Cosmology and the Continuous-State Postulate; 4.3 Fine Tuning Implied by Astrophysical Observation 4.4 Numerical Relations Coupled to the Concept of Scaling4.5 Physical Cosmology of the Close-Packed Fundamental Least Unit for an Energy Dependent Spacetime Metric.; 4.6 The Formalism for Noetic HAM Cosmology.; 4.7 Transformation of Space into Time and String Tension.; 4.8 Alternative Derivation of String Tension in HAM Cosmology.; 4.9 Parameters of the Spacetime Incursive Oscillator (IO).; 4.10 Emergence of 2-Branes from Inherent Spacetime Oscillations.; 4.11 Summary of Noetic Spacetime Parameters.; 4.12 Simplistic Computer Simulated Production of the 2-Brane.; 4.13 Conclusions.; References. 5. Formalizing the Ultimate Geometry of Reality: Dimensionality, Awareness and Arrow of Time5.1 Introduction.; 5.2 Current Philosophy of Temporal Science; 5.3 Complementarity of Physical Time and Observer Time; 5.4 The Vacuum Origin of Thermodynamics and Entropy; 5.5 Peripheral Physical Properties Related to the Observer; 5.6 Introduction to Spin Exchange Compactification Dynamics and the Permutation of Dimensions in the Noetic Transformation; 5.7 Dirac Spherical Rotation Inherent to the Transformation of the Fundamental Least-Unit; 5.8 Preparing the Noetic Spacetime Transformation 5.9 Developing the Line Element for Noetic Superspace |
| Record Nr. | UNINA-9910455885503321 |
|
Amoroso Richard L
|
||
| Singapore ; ; Hackensack, NJ, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The holographic anthropic multiverse [[electronic resource] ] : formalizing the complex geometry of reality / / Richard L Amoroso, Elizabeth A Rauscher
| The holographic anthropic multiverse [[electronic resource] ] : formalizing the complex geometry of reality / / Richard L Amoroso, Elizabeth A Rauscher |
| Autore | Amoroso Richard L |
| Pubbl/distr/stampa | Singapore ; ; Hackensack, NJ, : World Scientific, c2009 |
| Descrizione fisica | 1 online resource (510 p.) |
| Disciplina | 523.1 |
| Altri autori (Persone) | RauscherElizabeth A |
| Collana | K & E series on knots and everything |
| Soggetto topico |
Quantum cosmology
Anthropic principle Supersymmetry |
| ISBN |
1-282-75773-3
9786612757730 981-283-931-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents; Dedication; Preface; References; 1. Demise of the Big Bang - A Philosophical Conundrum; 1.1 Philosophical Overview; THE HORIZON PROBLEM; THE FLATNESS PROBLEM; DENSITY FLUCTUATION; EX NIHILO CREATION PROBLEM; LARGE SCALE STRUCTURE & AGE OF UNIVERSE PROBLEM; COSMOLOGICAL CONSTANT - DARK ENERGY PROBLEM; QUASAR REDSHIFT-LUMINOSITY PROBLEM; OTHER PROBLEMS; 1.2 A New Cosmological Horizon.; References.; 2. Extending the Standard Model: Towards the Ultimate Evolution of String Theory; 2.1 Pre-Ambulatory Hoopla; 2.2 Ultimate Evolution of M-Theory; 2.3 String/Brane Dynamics.
2.4 New Horizons Beyond the Standard ModelReferences.; 3. Fundamental Parameters for a Continuous-State Holographic Anthropic Multiverse; 3.1 Introduction to the Cosmological Issues; 3.2 Clarification of Pertinent Cosmological Nomenclature; MULTIVERSE COSMOLOGY; ANTHROPIC PRINCIPLE; HOLOGRAPHIC PRINCIPLE; 3.3 Parallel Interpretations of Cosmological Data; 3.4 Euclidean/Minkowski Geometry as Basis for Observed Reality.; 3.5 Philosophy of Space in HAM Cosmology - Origin of Structure.; 3.6 Space: Relational Versus Absolute.; 3.7 Physical Cosmology of Fundamental Least Cosmological Unit 3.8 Holographic Anthropic Multiverse Cosmology (HAM)3.9 Overview of the Formalism for Noetic Cosmology; 3.10 Transformation of Space into Time; 3.11 Energy Dependent Spacetime Metric.; 3.12 The Wheeler Geon Concept Extended to Noetic Superspace; 3.13 The Hyper-Geon Domain of HAM Noetic Field Theory; 3.14 Conclusions.; References.; 4. An Alternative Derivation of String Tension Determining a Unique Background Independent String Vacuum; 4.1 Introductory Prolegomena; 4.2 Scaling in Cosmology and the Continuous-State Postulate; 4.3 Fine Tuning Implied by Astrophysical Observation 4.4 Numerical Relations Coupled to the Concept of Scaling4.5 Physical Cosmology of the Close-Packed Fundamental Least Unit for an Energy Dependent Spacetime Metric.; 4.6 The Formalism for Noetic HAM Cosmology.; 4.7 Transformation of Space into Time and String Tension.; 4.8 Alternative Derivation of String Tension in HAM Cosmology.; 4.9 Parameters of the Spacetime Incursive Oscillator (IO).; 4.10 Emergence of 2-Branes from Inherent Spacetime Oscillations.; 4.11 Summary of Noetic Spacetime Parameters.; 4.12 Simplistic Computer Simulated Production of the 2-Brane.; 4.13 Conclusions.; References. 5. Formalizing the Ultimate Geometry of Reality: Dimensionality, Awareness and Arrow of Time5.1 Introduction.; 5.2 Current Philosophy of Temporal Science; 5.3 Complementarity of Physical Time and Observer Time; 5.4 The Vacuum Origin of Thermodynamics and Entropy; 5.5 Peripheral Physical Properties Related to the Observer; 5.6 Introduction to Spin Exchange Compactification Dynamics and the Permutation of Dimensions in the Noetic Transformation; 5.7 Dirac Spherical Rotation Inherent to the Transformation of the Fundamental Least-Unit; 5.8 Preparing the Noetic Spacetime Transformation 5.9 Developing the Line Element for Noetic Superspace |
| Record Nr. | UNINA-9910780727103321 |
|
Amoroso Richard L
|
||
| Singapore ; ; Hackensack, NJ, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The holographic anthropic multiverse : formalizing the complex geometry of reality / / Richard L Amoroso, Elizabeth A Rauscher
| The holographic anthropic multiverse : formalizing the complex geometry of reality / / Richard L Amoroso, Elizabeth A Rauscher |
| Autore | Amoroso Richard L |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Singapore ; ; Hackensack, NJ, : World Scientific, c2009 |
| Descrizione fisica | 1 online resource (510 p.) |
| Disciplina | 523.1 |
| Altri autori (Persone) | RauscherElizabeth A |
| Collana | K & E series on knots and everything |
| Soggetto topico |
Quantum cosmology
Anthropic principle Supersymmetry |
| ISBN |
1-282-75773-3
9786612757730 981-283-931-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents; Dedication; Preface; References; 1. Demise of the Big Bang - A Philosophical Conundrum; 1.1 Philosophical Overview; THE HORIZON PROBLEM; THE FLATNESS PROBLEM; DENSITY FLUCTUATION; EX NIHILO CREATION PROBLEM; LARGE SCALE STRUCTURE & AGE OF UNIVERSE PROBLEM; COSMOLOGICAL CONSTANT - DARK ENERGY PROBLEM; QUASAR REDSHIFT-LUMINOSITY PROBLEM; OTHER PROBLEMS; 1.2 A New Cosmological Horizon.; References.; 2. Extending the Standard Model: Towards the Ultimate Evolution of String Theory; 2.1 Pre-Ambulatory Hoopla; 2.2 Ultimate Evolution of M-Theory; 2.3 String/Brane Dynamics.
2.4 New Horizons Beyond the Standard ModelReferences.; 3. Fundamental Parameters for a Continuous-State Holographic Anthropic Multiverse; 3.1 Introduction to the Cosmological Issues; 3.2 Clarification of Pertinent Cosmological Nomenclature; MULTIVERSE COSMOLOGY; ANTHROPIC PRINCIPLE; HOLOGRAPHIC PRINCIPLE; 3.3 Parallel Interpretations of Cosmological Data; 3.4 Euclidean/Minkowski Geometry as Basis for Observed Reality.; 3.5 Philosophy of Space in HAM Cosmology - Origin of Structure.; 3.6 Space: Relational Versus Absolute.; 3.7 Physical Cosmology of Fundamental Least Cosmological Unit 3.8 Holographic Anthropic Multiverse Cosmology (HAM)3.9 Overview of the Formalism for Noetic Cosmology; 3.10 Transformation of Space into Time; 3.11 Energy Dependent Spacetime Metric.; 3.12 The Wheeler Geon Concept Extended to Noetic Superspace; 3.13 The Hyper-Geon Domain of HAM Noetic Field Theory; 3.14 Conclusions.; References.; 4. An Alternative Derivation of String Tension Determining a Unique Background Independent String Vacuum; 4.1 Introductory Prolegomena; 4.2 Scaling in Cosmology and the Continuous-State Postulate; 4.3 Fine Tuning Implied by Astrophysical Observation 4.4 Numerical Relations Coupled to the Concept of Scaling4.5 Physical Cosmology of the Close-Packed Fundamental Least Unit for an Energy Dependent Spacetime Metric.; 4.6 The Formalism for Noetic HAM Cosmology.; 4.7 Transformation of Space into Time and String Tension.; 4.8 Alternative Derivation of String Tension in HAM Cosmology.; 4.9 Parameters of the Spacetime Incursive Oscillator (IO).; 4.10 Emergence of 2-Branes from Inherent Spacetime Oscillations.; 4.11 Summary of Noetic Spacetime Parameters.; 4.12 Simplistic Computer Simulated Production of the 2-Brane.; 4.13 Conclusions.; References. 5. Formalizing the Ultimate Geometry of Reality: Dimensionality, Awareness and Arrow of Time5.1 Introduction.; 5.2 Current Philosophy of Temporal Science; 5.3 Complementarity of Physical Time and Observer Time; 5.4 The Vacuum Origin of Thermodynamics and Entropy; 5.5 Peripheral Physical Properties Related to the Observer; 5.6 Introduction to Spin Exchange Compactification Dynamics and the Permutation of Dimensions in the Noetic Transformation; 5.7 Dirac Spherical Rotation Inherent to the Transformation of the Fundamental Least-Unit; 5.8 Preparing the Noetic Spacetime Transformation 5.9 Developing the Line Element for Noetic Superspace |
| Record Nr. | UNINA-9910826609203321 |
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Amoroso Richard L
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| Singapore ; ; Hackensack, NJ, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Particle fever / Abramorama ; Bond/360 ; Anthos Media, LLC, in association with PF Productions, LLC, presents ; a Mark A. Levinson and David E. Kaplan film ; producers, Andrea Miller and Carla Solomon ; producer, David E. Kaplan ; producer and director, Mark A. Levinson
| Particle fever / Abramorama ; Bond/360 ; Anthos Media, LLC, in association with PF Productions, LLC, presents ; a Mark A. Levinson and David E. Kaplan film ; producers, Andrea Miller and Carla Solomon ; producer, David E. Kaplan ; producer and director, Mark A. Levinson |
| Edizione | [Educational edition] |
| Pubbl/distr/stampa | Sausalito, CA : Ro*Co Films Educational, 2014 |
| Descrizione fisica | 1 videodisc (99 min.) : sound, colour ; 4 3/4 in. |
| Disciplina | 539.7/360944 |
| Altri autori (Persone) |
Levinson, Mark Alan
Kaplan, David Elazzar Miller, Andrea Solomon, Carla Jackson, Thomas Campbell Ohrstrom, Gerry Murch, Walter Raschke-Robinson, Claudia Held, Wolfgang Miller, Robert Aleksa, Martin Arkani-Hamed, Nima Dimopoulos, Savas Dunford, Monica Gianotti, Fabiola Lamont, Mike Higgs, Peter |
| Altri autori (Enti) |
Abramorama (Firm)author
BOND/360 (Firm) Anthos Media, LLC PF Productions MK12 Studios (Firm) Ro*Co Films Educational (Firm) |
| Altri autori (Convegni) | Athens International Film and Video Festival (2014) |
| Soggetto (Ente) | European Organization for Nuclear Research |
| Soggetto topico |
Large Hadron Collider (France and Switzerland)
Particle beams, Colliding - Experiments Particles (Nuclear physics) - Experiments Collisions (Nuclear physics) - Experiments Proton-antiproton colliders Higgs bosons Matter - Constitution Supercolliders - Switzerland Particle accelerators Nuclear physicists - Interviews Standard model (Nuclear physics) Quantum cosmology Quantum field theory |
| Classificazione |
LC QC787.P73
53.3 |
| Formato | Video DVD  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione |
ger
ita eng fre |
| Nota di contenuto | CERN 2007 - David meets Fabiola -- Aspen Center for Physics talk -- Experimentalists and theorists -- Monica explains the LHC -- History of particle physics -- The magnificent machine -- First beam test -- ATLAS start-up party -- The accident -- Discovery is a marathon -- Sculpture garden - supersymmetry -- Big problems - the multiverse -- First high energy collisions -- Summer of 140 -- Higgs discovery! |
| Record Nr. | UNISALENTO-991002920249707536 |
| Sausalito, CA : Ro*Co Films Educational, 2014 | ||
| Video DVD | ||
| Lo trovi qui: Univ. del Salento | ||
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