PPT-Quantum Particle Behavior in Classically Singular Space-tim

by Debbie Konkowski USNA and Tom Helliwell HMC MG12 July 12 18 2009 TM Helliwell and DA Konkowski Quantum healing of classical singularities in powerlaw spacetimes. Lagrangian. Densities. Just as there is no “derivation” of quantum mechanics from classical mechanics, there is no derivation of relativistic field theory from quantum mechanics. The “route” from one to the other is based on . Dieter Jaksch. Outline. Lecture 1: Introduction. What defines a quantum simulator? Quantum simulator criteria. Strongly correlated quantum systems.. Lecture 2: Optical lattices. Bose-Einstein condensation, adiabatic loading of an optical lattice. J1 Particles and Interactions. Particle Physics. Description and classification. State what is meant by an elementary particle (no internal structure). Identify elementary particles (quarks, leptons and exchange particles, Higgs?). Conformally. Static Space-Times . Debbie Konkowski (USNA) . & Tom . . Helliwell. . (HMC) . Ae100prg – Prague, Czech Republic – June 25-29, 2012. 1. . Singularities . . a. . Classical . When a word refers to . one . person, place, thing or idea, it is . singular . in number.. When a word refers to . more than one. , it is . plural. in number.. Singular: circle, he, one, woman, loss. AmBAINIS. UNIVERSITY OF LATVIA. Quantum algorithms vs. polynomials and the maximum quantum-classical gap in the query model. Query model. Function f(x. 1. , ..., x. N. ), x. i. . {0,1}.. x. i. given by a black box:. The essence of Particle Physics. Particles are actually not like balls but essentially more fields!. Well, not quite.. Quantum Field Theory. They are . quantized fields.. Fields when quantized are not like fields any longer, but more like particles.. Dung Nguyen. Chicago 19. th. January. Content. Motivation . Quantum bit (qubit) vs Classical bit (bit). Quantum Computation . Quantum Communication. Conclusion. Motivation. The end of Moore’s law scaling in silicon (because of quantum effects of particle at scale smaller than 7nm).. z. -component angular momentum. The . z. -component of the angular momentum operator depends only on . φ. The . particle-on-a-sphere wave . function is the . eigenfunction. of the . l. z. operator.. extended Standard . Model . Yuta . Orikasa. (. IEAP C. TU. ). Collaborators. Satoshi . Iso. (KEK). Nobuchika. Okada (Alabama U). Phys.Lett.B, 676, . 81 (. 2009), Phys.Rev.D, 80, . 115007 (. 2009). . Outline. Generating . EM Fields. Time-Varying . Wavefunctions. Superposition of Energy States. Maxwell. ’. s Equations. The Wave Equation. Dispersion Relation. Energy-Momentum. (free-particle). Quantum Matter . at . the Coldest . Temperatures. in . the Universe. Brian DeMarco. University of Illinois. 0 K. supernova core. 100,000,000,000 K. lava. 1,200 K. ice. 273 K. Room temperature. 294 K. ” Workshop is to discuss theoretical and experimental hot issues related to quantum physics, from foundational issues (such as findings and ideas to investigate quantum effects in biological systems. The Workshop is supported by . Quantum Confinement. QD Synthesis. Colloidal Methods . Epitaxial Growth. Applications. Biological. Light Emitters. Additional Applications. Introduction. Definition: . Quantum dots (QD) are nanoparticles/structures that exhibit 3 dimensional quantum confinement, which leads to many unique optical and transport properties..