In Search of Quantum Reality
... 1.3.1.7 The Determinate Universe . . . . . . . . . . . . . Through the Looking Glass: The Quantum Point of View . . . . . . . . . . . . . . . . . . . . . . 1.4.1 When is a Particle Not a Particle? . . . . . . . . . . . . . . 1.4.1.1 The Decline and Fall of the Trajectory . . . . . . 1.4.1.2 Classica ...
... 1.3.1.7 The Determinate Universe . . . . . . . . . . . . . Through the Looking Glass: The Quantum Point of View . . . . . . . . . . . . . . . . . . . . . . 1.4.1 When is a Particle Not a Particle? . . . . . . . . . . . . . . 1.4.1.1 The Decline and Fall of the Trajectory . . . . . . 1.4.1.2 Classica ...
Aspects of quantum information theory
... of interest. The promise of new technologies like safe cryptography and new “super computers”, capable of handling otherwise untractable problems, has excited not only researchers from many different fields like physicists, mathematicians and computer scientists, but also a large public audience. On ...
... of interest. The promise of new technologies like safe cryptography and new “super computers”, capable of handling otherwise untractable problems, has excited not only researchers from many different fields like physicists, mathematicians and computer scientists, but also a large public audience. On ...
Ontological Aspects of Quantum Field Theory edited by
... philosophy. While more will be said about the relevant philosophical disciplines in section 1.4, this section is concerned with the question how physics and philosophy are related to each other in ontological matters. It will be shown that the major contribution of philosophy consists in its concept ...
... philosophy. While more will be said about the relevant philosophical disciplines in section 1.4, this section is concerned with the question how physics and philosophy are related to each other in ontological matters. It will be shown that the major contribution of philosophy consists in its concept ...
Shor state
... On a quantum computer one can put the input into a superposition of a huge number of states and then apply the algorithm to all inputs simultaneously! But… The measurement outcome is quantum probabilistic. So even though the algorithm is applied to many states you can only measure one answer and wh ...
... On a quantum computer one can put the input into a superposition of a huge number of states and then apply the algorithm to all inputs simultaneously! But… The measurement outcome is quantum probabilistic. So even though the algorithm is applied to many states you can only measure one answer and wh ...
Circuit QED: Superconducting Qubits Coupled to Microwave Photons
... Quantum electrodynamics is the theory of interaction between electrons (and atoms) with electromagnetic fields. These lecture notes discuss the closely related problem of quantization of electrical circuits (Devoret, 1997; Schoelkopf and Girvin, 2008). Experimental progress over the last decade in c ...
... Quantum electrodynamics is the theory of interaction between electrons (and atoms) with electromagnetic fields. These lecture notes discuss the closely related problem of quantization of electrical circuits (Devoret, 1997; Schoelkopf and Girvin, 2008). Experimental progress over the last decade in c ...
2-dimensional “particle-in-a-box” problems
... an expressed need of my colleague Oz Bonfim, who speculates that some of my results may be relevent to his own work in connection with the so-called “Bohm interpretation of quantum mechanics.”3 I have also an ulterior motivation, ...
... an expressed need of my colleague Oz Bonfim, who speculates that some of my results may be relevent to his own work in connection with the so-called “Bohm interpretation of quantum mechanics.”3 I have also an ulterior motivation, ...
Quantum correlations and measurements
... If nonlinear equations are involved, then the mathematical toolbox of linear methods is, in parts, no longer applicable. However, a lot of physical systems are characterized by nonlinear equations. Prominent example are the Navier–Stokes equations for the dynamic of fluids, Einstein’s field equation ...
... If nonlinear equations are involved, then the mathematical toolbox of linear methods is, in parts, no longer applicable. However, a lot of physical systems are characterized by nonlinear equations. Prominent example are the Navier–Stokes equations for the dynamic of fluids, Einstein’s field equation ...
PDF
... across M and dividing it in to two disjoint parts, the “past” and “future”. However: (a): Not all the hypersurfaces considered will be everywhere spacelike. For we will allow t to include parts of the boundaries of past light-cones. Such boundaries are always 3-dimensional embedded sub-manifolds of ...
... across M and dividing it in to two disjoint parts, the “past” and “future”. However: (a): Not all the hypersurfaces considered will be everywhere spacelike. For we will allow t to include parts of the boundaries of past light-cones. Such boundaries are always 3-dimensional embedded sub-manifolds of ...
