Quantum Theory – Consciousness
... 17th - 20th century. The search for ultimate causality in smaller and smaller bits of matter is finally a bootless enterprise. The further one goes down the scale of physical reality, the less material matter appears to be. The more reality seems to consist of nonmaterial information, pure potential ...
... 17th - 20th century. The search for ultimate causality in smaller and smaller bits of matter is finally a bootless enterprise. The further one goes down the scale of physical reality, the less material matter appears to be. The more reality seems to consist of nonmaterial information, pure potential ...
Theoretical particle physics Represented by Theory group: Faculty
... Since there are many phenomena that the Standard Model can not explain, various extensions of the Standard Model have been developed. These models are called “theories beyond the standard model”. The most famous one is probably the Supersymmetry(SUSY). In SUSY, every particle has its own “superpartn ...
... Since there are many phenomena that the Standard Model can not explain, various extensions of the Standard Model have been developed. These models are called “theories beyond the standard model”. The most famous one is probably the Supersymmetry(SUSY). In SUSY, every particle has its own “superpartn ...
Beyond_Standard_Model_Physics
... • OR Other NPs coupling to W, Z show up around 1 TeV. Lists: (as well as combinations) • Non-SM Higgs models (Little Higgs) • Higgsless models • Extra-D models (KK, TeV-braneworld) • Composite models (technicolor, preon) • SUSY models (top-down, bottom-up) ...
... • OR Other NPs coupling to W, Z show up around 1 TeV. Lists: (as well as combinations) • Non-SM Higgs models (Little Higgs) • Higgsless models • Extra-D models (KK, TeV-braneworld) • Composite models (technicolor, preon) • SUSY models (top-down, bottom-up) ...
Why High Energy Physics At UTA??
... For MH< 135, H bb decay mode dominates – FNAL Tevatron: • Discovery? H bb MH<135 GeV • Maybe H WW/ZZ MH>135 GeV ...
... For MH< 135, H bb decay mode dominates – FNAL Tevatron: • Discovery? H bb MH<135 GeV • Maybe H WW/ZZ MH>135 GeV ...
Neitzke: What is a BPS state?
... and indeed does — imply that the BPS degeneracy Ω(γ) jumps when we vary parameters. So these “invariants” are not as invariant as one might have hoped! This might seem like a contradiction, since we emphasized that Ω(γ) is invariant under continuous deformations of the G̃-representation H1 . The tro ...
... and indeed does — imply that the BPS degeneracy Ω(γ) jumps when we vary parameters. So these “invariants” are not as invariant as one might have hoped! This might seem like a contradiction, since we emphasized that Ω(γ) is invariant under continuous deformations of the G̃-representation H1 . The tro ...
String Theory
... predictions were noticeable only with experimental data. Point-particle theory succeeded and string theory was left behind The reason for this was that String vibrations produce observable properties that we see in fundamental particles, for instance, string theory seemed to provide vibrating config ...
... predictions were noticeable only with experimental data. Point-particle theory succeeded and string theory was left behind The reason for this was that String vibrations produce observable properties that we see in fundamental particles, for instance, string theory seemed to provide vibrating config ...
The Origin of Inertia
... According to General Relativity theory, the energy density of the ZPF would generate an enormous spacetime curvature -- akin to a huge cosmological constant. This is, of course, true in the standard interpretation of mass-energy. However one has to be careful to maintain self-consistency when compar ...
... According to General Relativity theory, the energy density of the ZPF would generate an enormous spacetime curvature -- akin to a huge cosmological constant. This is, of course, true in the standard interpretation of mass-energy. However one has to be careful to maintain self-consistency when compar ...
g - Experimental High Energy Physics
... Rotational symmetry: laws of physics do not depend on any direction Symmetries are important in many areas of physics e.g. conserved quantities like angular momentum in the case of rotational symmetry ...
... Rotational symmetry: laws of physics do not depend on any direction Symmetries are important in many areas of physics e.g. conserved quantities like angular momentum in the case of rotational symmetry ...
Bethe Ansatz in AdS/CFT: from local operators to classical strings
... Cosmology Particle Astrophysics and String theory* (Stockholm ...
... Cosmology Particle Astrophysics and String theory* (Stockholm ...
Quantum Reality
... “Bosons are gregarious groupies. If one boson is in a particular quantum state, all other bosons are "invited in" to share the same state. The more bosons that pile into the state, the stronger becomes the tendency for others to join them. In such a state, a very large number of particle will have ...
... “Bosons are gregarious groupies. If one boson is in a particular quantum state, all other bosons are "invited in" to share the same state. The more bosons that pile into the state, the stronger becomes the tendency for others to join them. In such a state, a very large number of particle will have ...
Laura Covi Institute for Theoretical Physics Georg-August
... different SUSY particles can be the LSP: Gauge mediation: gravitino is lighter than the rest as long as the messenger mass is smaller than Planck... Gravity mediation: for universal boundary conditions on can have either neutralino, RH stau or gravitino as LSP; for non-universal boundary conditions ...
... different SUSY particles can be the LSP: Gauge mediation: gravitino is lighter than the rest as long as the messenger mass is smaller than Planck... Gravity mediation: for universal boundary conditions on can have either neutralino, RH stau or gravitino as LSP; for non-universal boundary conditions ...
Fysiikan historia
... • The quark model did not tell much about the strong force that keeps quarks together in hadrons. In particular, why quarks were never observed as free particles. There were also problems with Pauli’s exclusion princible: For example, in omega particle there are three s quarks with their spins para ...
... • The quark model did not tell much about the strong force that keeps quarks together in hadrons. In particular, why quarks were never observed as free particles. There were also problems with Pauli’s exclusion princible: For example, in omega particle there are three s quarks with their spins para ...
Document
... Coupling constants have an energy dependence due to (higher order) virtual interactions. These change the measured value of the coupling constant and make it depend on the energy scale at which it is measured (logarithmic dependence). The strong and weak couplings decrease with energy whilst the EM ...
... Coupling constants have an energy dependence due to (higher order) virtual interactions. These change the measured value of the coupling constant and make it depend on the energy scale at which it is measured (logarithmic dependence). The strong and weak couplings decrease with energy whilst the EM ...
K.K. Gan Physics 780.02: Introduction to High Energy Physics
... Web: http://www.physics.ohio-state.edu/~gan/teaching/winter10/780.html Textbook: Particle Physics (3rd edition) Martin and Shaw The following books are suggested references and are at the Science and Engineering Library: Introduction to Quarks and Partons, Close, QC793.5Q252C46 The Cosmic Onion, Clo ...
... Web: http://www.physics.ohio-state.edu/~gan/teaching/winter10/780.html Textbook: Particle Physics (3rd edition) Martin and Shaw The following books are suggested references and are at the Science and Engineering Library: Introduction to Quarks and Partons, Close, QC793.5Q252C46 The Cosmic Onion, Clo ...
Introduction: what is quantum field theory
... come back to bite on several occasions. It will turn out that the possible interactions in quantum field theory are governed by a few basic principles: locality, symmetry and renormalization group flow (the decoupling of short distance phenomena from physics at larger scales). These ideas make QFT a ...
... come back to bite on several occasions. It will turn out that the possible interactions in quantum field theory are governed by a few basic principles: locality, symmetry and renormalization group flow (the decoupling of short distance phenomena from physics at larger scales). These ideas make QFT a ...
brown - Stony Brook University
... 1. Electromagnetic – interactions of charged particles and photons (unified by Maxwell in 19th century) responsible for most of the phenemena seen in our laboratories. 2. Strong – responsible for the force between nucleons (hadrons), and the binding of the nucleus. 3. Weak – decays of quasi-stable p ...
... 1. Electromagnetic – interactions of charged particles and photons (unified by Maxwell in 19th century) responsible for most of the phenemena seen in our laboratories. 2. Strong – responsible for the force between nucleons (hadrons), and the binding of the nucleus. 3. Weak – decays of quasi-stable p ...
Aleksan_Vietnam_2014-8-14_v1
... of the next Strategy update, when physics results from the LHC running at 14 TeV will be available. CERN should undertake design studies for accelerator projects in a global context, with emphasis on proton-proton and electron-positron high-energy frontier machines. These design studies should be co ...
... of the next Strategy update, when physics results from the LHC running at 14 TeV will be available. CERN should undertake design studies for accelerator projects in a global context, with emphasis on proton-proton and electron-positron high-energy frontier machines. These design studies should be co ...
J.M. Maldacena
... • One can define inclusive, event shape variables for conformal theories • They can be computed at weak and strong coupling • Small angle features governed by the anomalous dimension of twist two operators • Events are more spherically symmetric at strong coupling, but not completely uniform. • In a ...
... • One can define inclusive, event shape variables for conformal theories • They can be computed at weak and strong coupling • Small angle features governed by the anomalous dimension of twist two operators • Events are more spherically symmetric at strong coupling, but not completely uniform. • In a ...
Lecture 5: Physics Beyond the Standard Model and Supersymmetry
... • ’Natural’ solution to hierarchy problem requires new physics around 100-1000 GeV • Many signs point to TeV scale physics! ...
... • ’Natural’ solution to hierarchy problem requires new physics around 100-1000 GeV • Many signs point to TeV scale physics! ...
The Family Problem: Extension of Standard Model with a Loosely
... More than twenty years ago I was curious by the absence of the Higgs mechanism in the strong interactions but not in the weak interaction sector[1] – a question still remains unanswered till today. A renormalizable gauge theory that does not have to be massless is already reputed by ‘t Hooft and oth ...
... More than twenty years ago I was curious by the absence of the Higgs mechanism in the strong interactions but not in the weak interaction sector[1] – a question still remains unanswered till today. A renormalizable gauge theory that does not have to be massless is already reputed by ‘t Hooft and oth ...
Theoretical Particle
... Large N means we have many kinds of gluons ( N 2) t’ Hooft shows that large N gauge theories can have perturbation expansions similar to the string theory AdS/CFT or gauge/gravity correspondence is the avatar of this idea. ...
... Large N means we have many kinds of gluons ( N 2) t’ Hooft shows that large N gauge theories can have perturbation expansions similar to the string theory AdS/CFT or gauge/gravity correspondence is the avatar of this idea. ...