Gauge symmetries in Quantum Gravity and String Theory
... This thesis explores the spectrum of states charged under global and gauge symmetries in String Theory, and the constraints that they pose on specific phenomenological models. On one hand, we use supercritical theories (those with more than 10 or 26 dimensions) to embed discrete gauge symmetries of ...
... This thesis explores the spectrum of states charged under global and gauge symmetries in String Theory, and the constraints that they pose on specific phenomenological models. On one hand, we use supercritical theories (those with more than 10 or 26 dimensions) to embed discrete gauge symmetries of ...
Quantum dots on bilayer graphene made on a substrate of boron
... The ongoing miniaturization of solid state devices has led to a.o. the development of quantum dots (QD’s). Quantum dots are small regions defined in a semiconductor material with a size of order 100 nm. Since the first studies in the late eighties, the physics of quantum dots has been a very active an ...
... The ongoing miniaturization of solid state devices has led to a.o. the development of quantum dots (QD’s). Quantum dots are small regions defined in a semiconductor material with a size of order 100 nm. Since the first studies in the late eighties, the physics of quantum dots has been a very active an ...
Synthesizing arbitrary quantum states in a superconducting resonator
... The superposition principle is a fundamental tenet of quantum mechanics. It allows a quantum system to be ‘in two places at the same time’, because the quantum state of a physical system can simultaneously include measurably different physical states. The preparation and use of such superposed state ...
... The superposition principle is a fundamental tenet of quantum mechanics. It allows a quantum system to be ‘in two places at the same time’, because the quantum state of a physical system can simultaneously include measurably different physical states. The preparation and use of such superposed state ...
Coherent Spin Dynamics of a Spin-1 Bose-Einstein
... a type of matter-wave four-wave mixing. We also demonstrate control of the coherent evolution of the system using magnetic fields. In the first part of this thesis, the all-optical approaches to BEC that were first developed in our laboratory will be introduced. All-optical formation of Bose-Einstei ...
... a type of matter-wave four-wave mixing. We also demonstrate control of the coherent evolution of the system using magnetic fields. In the first part of this thesis, the all-optical approaches to BEC that were first developed in our laboratory will be introduced. All-optical formation of Bose-Einstei ...
9.5. Particular motions of a rigid body
... previously chapters that in the study of the motion we have to answer to two questions (which will remain the same for the bodies) namely: which is the position of the body in any instant of the motion and how is performed its motion? The rigid body may be considered (we have seen this propriety in ...
... previously chapters that in the study of the motion we have to answer to two questions (which will remain the same for the bodies) namely: which is the position of the body in any instant of the motion and how is performed its motion? The rigid body may be considered (we have seen this propriety in ...
Foundations of nonlinear gyrokinetic theory - Academics
... aspects of the nonlinear dynamics involved in the evolution toward such a saturated state that often exhibits self-organized large-scale motion and are not yet well understood. It is important to note that many plasmas of interest in magnetic fusion and in astrophysics are “collisionless” on the par ...
... aspects of the nonlinear dynamics involved in the evolution toward such a saturated state that often exhibits self-organized large-scale motion and are not yet well understood. It is important to note that many plasmas of interest in magnetic fusion and in astrophysics are “collisionless” on the par ...
PHY - University of Miami Academic Bulletin
... PHY 518. Readings in Physics. 1-3 Credit Hours. Components: LEC. Grading: GRD. Typically Offered: Offered by Announcement Only. PHY 522. Solid State Physics. 3 Credit Hours. Crystal structure, quantum theory of the electronic structure of solids, mechanical, electric, magnetic and optical properties ...
... PHY 518. Readings in Physics. 1-3 Credit Hours. Components: LEC. Grading: GRD. Typically Offered: Offered by Announcement Only. PHY 522. Solid State Physics. 3 Credit Hours. Crystal structure, quantum theory of the electronic structure of solids, mechanical, electric, magnetic and optical properties ...
Physics
... Lesson Objectives Draw graphs of motion including a complete trip, velocity, acceleration; Work problems of motion including velocity and acceleration Relate mass and weight; Define inertia; Differentiate between gravitational weight and apparent weight Describe the law of acceleration Examine the p ...
... Lesson Objectives Draw graphs of motion including a complete trip, velocity, acceleration; Work problems of motion including velocity and acceleration Relate mass and weight; Define inertia; Differentiate between gravitational weight and apparent weight Describe the law of acceleration Examine the p ...
How to detect fluctuating stripes in the high-temperature superconductors E. Fradkin
... et al., 2002) and Howald et al. (2003a, 2003b) reveals the existence of a nearby stripe-ordered phase in optimally doped BSCCO.7 Section V.C contains a discussion of experiments to detect local nematic order, and a discussion of recent STM evidence of such order on the same BSCCO surfaces. In Sec. V ...
... et al., 2002) and Howald et al. (2003a, 2003b) reveals the existence of a nearby stripe-ordered phase in optimally doped BSCCO.7 Section V.C contains a discussion of experiments to detect local nematic order, and a discussion of recent STM evidence of such order on the same BSCCO surfaces. In Sec. V ...
Chapter 13: Geometry: Angles and Polygons
... Many road signs are geometric in shape. In fact, they are often shaped like squares, rectangles, and triangles. You can use geometric properties to classify the shapes of road signs, determine the types of angles found in road signs, and list the similarities and differences among their shapes. You ...
... Many road signs are geometric in shape. In fact, they are often shaped like squares, rectangles, and triangles. You can use geometric properties to classify the shapes of road signs, determine the types of angles found in road signs, and list the similarities and differences among their shapes. You ...