The Omniverse (from the ancient Celestial language, meaning Totality of Everything) was the vast realm in which all other dimensions of space existed. It was the highest possible dimensional level, encompassing all lower dimensions such as multiverses and individual universes. There was almost no understanding of the Omniverse, since it was thought to be impossible for matter to survive outside the universe. The Omniverse was said to be truly infinite. The Baragwin Physicist Bayl Ghaf was the fi
Scientists say extra dimensions would help explain some of the deepest mysteries of physics, and they're working on ways to prove whether or not they exist.
The idea of multiple universes, or a multiverse, is suggested by not just one, but numerous physics theories. Here are the top five ways additional universes could come about.
Here's everything you need to know about String Theory, one of the most spectacular (and controversial) physics theories ever developed.
The first part is devoted to the topic of quantum gravity and string theories, mainly concerned with recent authoritative results in the study of discretizations in classical and quantum general relativity, non-commutative theories of gravity, (2+1)-dimensional supergravity, and Berezin description of Kaehler quotients. The field to particle transition problem is also considered. The second part deals with cosmology and black holes. Here, cosmological, inflationary, and braneworld scenarios are investigated. Moreover, some scalar field models for the dark matter content of the universe as well as new models of protostellar collapse and fragmentation are presented. This part includes also a study of de Sitter/Anti-de Sitter phase transition for black holes, an understanding of hairy black holes and an improvement of the no-hair theorem proof for the Proca field. The third part is devoted to exact solutions, in particular classical and quantum cosmological solutions in scalar-tensor theories. Additionally, a discussion about conformally flat axisymmetric spacetimes and some considerations on accelerated expansion in scalar-tensor theories are presented. Experimental and some mixed topics are included in the final part. Among them is an experimental foundation of nonlocality and superluminal signal velocity in photonic tunneling, a proposal for testing the weak equivalence principle for charged particles in space. Moreover, a possible new type of skewon field linked to Maxwell theory is also presented, and an authoritative discussion at the interface of quantum and gravitational realms.
About The Artwork String theory inspired abstract painting of textured red and flat blue forms in a field of blue. Conceptual cosmology art, ‘Brane Collisions’, part of the Redshift/Blueshift series. This square artwork comes with D-rings and wire attached, ready for hanging. We’ve waited so long for this moment; a glimpse into the eleventh dimension, the nursery of the multiverse. Two D-branes collided right there, a new universe was born and string theorists all over our barely significant earth rejoiced at last! Original Created:2017 Subjects:Science Materials:Canvas Styles:AbstractConceptualFine ArtModern Mediums:Acrylic Details & Dimensions Painting:Acrylic on Canvas Original:One-of-a-kind Artwork Size:19.7 W x 19.7 H x 0.7 D in Frame:Not Framed Ready to Hang:Not applicable Packaging:Ships in a Box Shipping & Returns Delivery Time:Typically 5-7 business days for domestic shipments, 10-14 business days for international shipments. Handling:Ships in a box. Artists are responsible for packaging and adhering to Saatchi Art’s packaging guidelines. Ships From:United Kingdom. Customs:Shipments from United Kingdom may experience delays due to country's regulations for exporting valuable artworks. Have additional questions? Please visit our help section or contact us.
Einstein Gravity in a Nutshell von Anthony Zee
The scalar-tensor theory of gravitation moved into the limelight in recent years due to developments in string theory, M-theory and "brane world" constructions. This book introduces the subject at a level suitable for both graduate students and researchers. It explores scalar fields, placing them in context with a discussion of Brans-Dicke theory, covering the cosmological constant problem, higher dimensional space-time, branes and conformal transformations.
Daniel Martin Diaz is a fine artist based in Tucson, Arizona, characterised by his unique way of representing the mysteries of life merged with the realms of sc
En la teoría general de la relatividad de Einstein un agujero negro es espacio, solo espaciotiempo. Un agujero negro en 4 dimensiones se comporta como un objeto puntual situando en el espaciotiempo…
Superstring theory is a promising theory which can potentially unify all the forces and the matters in particle physics. A new multi-dimensional object which is called \"D-brane\" was found. It drastically changed our perspective of a unified world. We may live on membrane-like hypersurfaces in higher dimensions (\"braneworld scenario\"), or we can create blackholes at particle accelarators, or the dynamics of quarks is shown to be equivalent to the higher dimensional gravity theory. All these scenarios are explained in this book with plain words but with little use of equations and with many figures. The book starts with a summary of long-standing problems in elementary particle physics and explains the D-branes and many applications of them. It ends with future roads for a unified ultimate theory of our world.
One of the more exciting ideas in high energy physics is the possibility that our three-dimensional universe is embedded in a much bigger multidimensional cosmos. Physicists call these embedded…
Avec l’avènement de la théorie des cordes, de nouveaux modèles cosmologiques ont vu le jour parallèlement au développement d’une nouvelle cosmologie : la cosmologie cordiste. En utilisant des objets bien particuliers issus de la théorie des cordes, les branes, les physiciens ont pu construire des modèles novateurs décrivant l’origine et l’évolution de l’univers dans le cadre de ce qui se nomme désormais la « cosmologie branaire ». Les prémices de la cosmologie branaire émergent à la fin des années 1990 sous […]
Modern cosmology is a quickly developing ?eld of research. New technical devices and tools supply the community with new experimental data measured with high accuracy. The self-consistent explanation of these data needs t- oretical models that are based on hypothetical predictions of particle theory. In their turn, such predictions imply cosmology for their probe. Speci?c st- ies of the cosmological consequences of particle theory, linking them to their observable signatures, are actual. This boiling kettle of theoretical research and experimental efforts produces ideas that will be preserved for following generations. The aim of this book is to acquaint the reader with some of these ideas, - fering nontrivial ways to probe the physical basis of modern cosmology. An extensive review of the newest ideas in modern cosmology, e. g., related with the development of the M-brane theory, lies beyond the scope of our book, which is aimed at providing a ?rmly established system of probes for these ideas, linking their predictions to their possible experimental test. We use the framework of in?ationary paradigm to reveal the phenomena that can shed light on the physical origin of the observed Universe, of its matter content and large-scale structure. The crucial role of quantum ?uctuations in creation of our Universe and in possible features, re?ecting cosmological impact of microphysics, is discussed. These features are shown to be accessible to - perimental test in the near future.
Cosmology, Quantum Vacuum and Zeta Functions: In Honor of Emilio Elizalde
This is the seventh volume in a series on the general topics of supersymmetry, supergravity, black objects (including black holes) and the attractor mechanism. The present volume is based on lectures held in March 2013 at the INFN-Laboratori Nazionali di Frascati during the Breaking of supersymmetry and Ultraviolet Divergences in extended Supergravity Workshop (BUDS 2013), organized by Stefano Bellucci, with the participation of prestigious speakers including P. Aschieri, E. Bergshoeff, M. Cederwall, T. Dennen, P. Di Vecchia, S. Ferrara, R. Kallosh, A. Karlsson, M. Koehn, B. Ovrut, A. Van Proeyen, G. Ruppeiner. Special attention is devoted to discussing topics related to the cancellation of ultraviolet divergences in extended supergravity and Born-Infeld-like actions. All talks were followed by extensive discussions and subsequent reworking of the various contributions a feature which is reflected in the unique \"flavor\" of this volume.
General Relativity, in spite of being the most successful gravitational theory has left some problems without answer. Brane-Gravity makes an attempt to answer some of these problems. According to the theory of brane-gravity, major portion of gravity lies in higher-dimensional \"bulk\" space-time as well as very small portion of gravity and standard model particles are trapped to the 3-brane. Here, starting from an overview of extra dimensions, the text discusses essentials of Brane-Gravity and Brane Cosmology. Followed by this introduction, the text investigates certain aspects of braneworld modifications to cosmological dynamics. In particular, it is devoted to following two important aspects of Brane Cosmology (i) Acceleration and deceleration of the universe (ii) Universe as a thermodynamical system and validity of thermodynamical laws. Various issues associated with these two aspects have been discussed along with extensive literature survey. Brane-Gravity and its applications to cosmology require deep understanding of mathematics and physics. Keeping this in mind, the detail calculation are explained in appendices so that text is useful to young research scholars.
General Relativity, in spite of being the most successful gravitational theory has left some problems without answer. Brane-Gravity makes an attempt to answer some of these problems. According to the theory of brane-gravity, major portion of gravity lies in higher-dimensional \"bulk\" space-time as well as very small portion of gravity and standard model particles are trapped to the 3-brane. Here, starting from an overview of extra dimensions, the text discusses essentials of Brane-Gravity and Brane Cosmology. Followed by this introduction, the text investigates certain aspects of braneworld modifications to cosmological dynamics. In particular, it is devoted to following two important aspects of Brane Cosmology (i) Acceleration and deceleration of the universe (ii) Universe as a thermodynamical system and validity of thermodynamical laws. Various issues associated with these two aspects have been discussed along with extensive literature survey. Brane-Gravity and its applications to cosmology require deep understanding of mathematics and physics. Keeping this in mind, the detail calculation are explained in appendices so that text is useful to young research scholars.
This invaluable book provides a quick introduction to the rudiments of perturbative string theory and a detailed introduction to the more current topic of D-brane dynamics. The presentation is very pedagogical, with much of the technical detail streamlined. The rapid but highly coherent introduction to the subject is perhaps what distinguishes this book from other string theory or D-brane books. This second edition includes an additional appendix with solutions to the exercises, thus expanding on some of the technical material and making the book more appealing for use in lecture courses. The material is based on mini-courses in theoretical high energy physics delivered by the author at various summer schools, so its actual level has been appropriately tested.
Recent developments in supersymmetric field theory, string theory, and brane theory have been revolutionary. The main focus of the present volume is developments of M-theory and its applications to superstring theory, quantum gravity, and the theory of elementary particles. Topics included are D-branes, boundary states, and world volume solitons. Anti-De-Sitter quantum field theory is explained, emphasising the way it can enforce the holography principle, together with the relation to black hole physics and the way Branes provide the microscopic interpretation for the entropy of black holes. Developments in D-branes within type-I superstring and related theories are described. There are also possible phenomenological implications of superstring theory that would lie within the range of quantum gravity effects in the future generation of accelerators, around 1 TeV.
The Pentagon Model is an explicit supersymmetric extension of the Standard Model, which involves a new strongly-interacting SU(5) gauge theory at TeV-scale energies. We explore extensions of the Pentagon model in the contexts of cosmology, grand unied theory, and string theory: (i) We present a new mechanism for baryogenesis, which links the baryon asymmetry of the universe to the dark matter density. (ii) We show that the Pentagon can be embedded into an SU(5) x SU(5) x SU(5) gauge group at the GUT scale. The doublet-triplet splitting problem, and proton decay compatible with experimental bounds, can be successfully addressed in this context. (iii) We discuss embeddings into string theory, specically N = 1 supersymmetric type IIa intersecting D-brane models, M-theory compactications of G2 holonomy, and heterotic orbifold constructions.