Hidden Variables and Nonlocality in Quantum Mechanics
... Bell’s strong arguments in favor of the idea. Many are convinced either that it is impossible to interpret quantum theory in this way, or that such an interpretation would actually be irrelevant. There are essentially two reasons behind such doubts. The first concerns certain mathematical theorems ( ...
... Bell’s strong arguments in favor of the idea. Many are convinced either that it is impossible to interpret quantum theory in this way, or that such an interpretation would actually be irrelevant. There are essentially two reasons behind such doubts. The first concerns certain mathematical theorems ( ...
Topological order at finite temperature?
... Can we use our intuition on classical systems to engineer / investigate new classes of quantum topologically ordered systems? What about quantum Hall states and other topologically ordered systems in the continuum? ...
... Can we use our intuition on classical systems to engineer / investigate new classes of quantum topologically ordered systems? What about quantum Hall states and other topologically ordered systems in the continuum? ...
Mass times velocity.
... upon by a net force.” Perhaps a little less joie de vivre than your average Frenchman, but nonetheless the key to understanding momentum. What we now call momentum, Newton referred to as “quantity of motion.” The linear momentum of an object equals the product of its mass and velocity. (In this chap ...
... upon by a net force.” Perhaps a little less joie de vivre than your average Frenchman, but nonetheless the key to understanding momentum. What we now call momentum, Newton referred to as “quantity of motion.” The linear momentum of an object equals the product of its mass and velocity. (In this chap ...
N.T. Jafferis and J.C. Sturm, "Fundamental and Experimental Conditions for the Realization of Traveling-Wave-Induced Aerodynamic Propulsive Forces by Piezoelectrically Deformed Plastic Substrates", J. of Microelectromech. Syst. 22, (2), pp. 495-505 (APR 2013).
... Finally, small-scale propulsion in air has been an active area of research lately, from early work using an external magnetic field to rotate a ∼5-mm magnetized propeller [21] to the development of ∼50–150-mg flapping-wing microrobotic flies [22], [23], which use a single piezoelectric actuator to d ...
... Finally, small-scale propulsion in air has been an active area of research lately, from early work using an external magnetic field to rotate a ∼5-mm magnetized propeller [21] to the development of ∼50–150-mg flapping-wing microrobotic flies [22], [23], which use a single piezoelectric actuator to d ...
Green’s Functions Theory for Quantum Many-Body Systems Many-Body Green’s Functions
... Many-Body Green’s Functions Many-body Green's functions (MBGF) are a set of techniques that originated in quantum field theory but have then found wide applications to the many-body problem. In this case, the focus are complex systems such as crystals, molecules, or atomic nuclei. ...
... Many-Body Green’s Functions Many-body Green's functions (MBGF) are a set of techniques that originated in quantum field theory but have then found wide applications to the many-body problem. In this case, the focus are complex systems such as crystals, molecules, or atomic nuclei. ...
Density Functional Theory and Group Theoretical Analysis in the
... The realization of ever smaller tunable devices is a major challenge in nanoelectronics; as a result, considerable efforts have been devoted to multifunctional materials in the last few years. Among them, the porous crystalline materials known as metalorganic frameworks (MOFs) are currently a hot to ...
... The realization of ever smaller tunable devices is a major challenge in nanoelectronics; as a result, considerable efforts have been devoted to multifunctional materials in the last few years. Among them, the porous crystalline materials known as metalorganic frameworks (MOFs) are currently a hot to ...
Title of slide - Royal Holloway, University of London
... Nature should allow a theory valid for both fast (relativistic) and small (quantum mechanical) systems... Glen Cowan RHUL Physics ...
... Nature should allow a theory valid for both fast (relativistic) and small (quantum mechanical) systems... Glen Cowan RHUL Physics ...
Chapter 9:Simple Harmonic Motion
... it moves to point N , therefore the expression for displacement, x1 is given by x1 A sin 1 where 1 and t ...
... it moves to point N , therefore the expression for displacement, x1 is given by x1 A sin 1 where 1 and t ...
Coherent Population Trapping in Real and Artificial Atoms
... actual atomic system, the ground state decoherence rate determines the width of the resonance as is demonstrated experimentally. The inclusion of Doppler broadening and propagation effects, and the impurities in the vapor, are found to weaken the strength of the CPT resonance. The presence of additi ...
... actual atomic system, the ground state decoherence rate determines the width of the resonance as is demonstrated experimentally. The inclusion of Doppler broadening and propagation effects, and the impurities in the vapor, are found to weaken the strength of the CPT resonance. The presence of additi ...
Microscopic modeling of high-field charge transport in amorphous
... This communication is a theoretical modeling of high-field charge transport properties in trigonal (t-Se) and amorphous (a-Se) Selenium. Selenium as a semiconductor falls into the category of condensed matter physics which is further divided into two groups, crystalline and noncrystalline ([1] Ch.1) ...
... This communication is a theoretical modeling of high-field charge transport properties in trigonal (t-Se) and amorphous (a-Se) Selenium. Selenium as a semiconductor falls into the category of condensed matter physics which is further divided into two groups, crystalline and noncrystalline ([1] Ch.1) ...
Signature of non-Newtonian orbits in ray
... unit probability; it is reflected with finite probability to the left. While for a Newtonian orbit reflection and transmission are decided on the basis of energy and momentum considerations only, reflection and transmission in the RS limit are stochastic processes. By ‘‘stochastic’’ we mean the foll ...
... unit probability; it is reflected with finite probability to the left. While for a Newtonian orbit reflection and transmission are decided on the basis of energy and momentum considerations only, reflection and transmission in the RS limit are stochastic processes. By ‘‘stochastic’’ we mean the foll ...
Homonuclear ionizing collisions of laser-cooled
... spin of s = 1 and can form total spin states with S = 0 , 1 or 2, while the products, carrying s = 21 共except for ground-state helium, which carries no electronic spin兲, can only form states with S = 0 or 1. Clearly, total electronic spin can only be conserved if S = 0 or 1, and a PI reaction with S ...
... spin of s = 1 and can form total spin states with S = 0 , 1 or 2, while the products, carrying s = 21 共except for ground-state helium, which carries no electronic spin兲, can only form states with S = 0 or 1. Clearly, total electronic spin can only be conserved if S = 0 or 1, and a PI reaction with S ...
Creation, detection, and decoherence of macroscopic quantum superposition states
... the context of the superfluid to Mott-insulator transition 关35兴, as well as for the case of attractive interactions. For the latter, it has been shown under certain conditions a Schrödinger catlike macroscopic superposition state can be generated 关36,37兴. In this catlike many-body state, a large num ...
... the context of the superfluid to Mott-insulator transition 关35兴, as well as for the case of attractive interactions. For the latter, it has been shown under certain conditions a Schrödinger catlike macroscopic superposition state can be generated 关36,37兴. In this catlike many-body state, a large num ...
