ABSTRACT Title of Document:
... mechanics begs. Quantum mechanics is at least as successful as relativity theory in terms of making accurate predictions about the physical world to which it applies. This begs for an answer to the question: what is essentially different about the theory of quantum mechanics which makes it so diffi ...
... mechanics begs. Quantum mechanics is at least as successful as relativity theory in terms of making accurate predictions about the physical world to which it applies. This begs for an answer to the question: what is essentially different about the theory of quantum mechanics which makes it so diffi ...
COMPUTER-AIDED-DESIGN METHODS FOR EMERGING
... Our early investigation of reversible logic is concerned with a virtual implementation that uses a direct translation of relatively complex binary functions into circuits composed of Fredkin reversible gates. This allowed us to project size and speed complexity of complex reversible circuits, altho ...
... Our early investigation of reversible logic is concerned with a virtual implementation that uses a direct translation of relatively complex binary functions into circuits composed of Fredkin reversible gates. This allowed us to project size and speed complexity of complex reversible circuits, altho ...
Centre de Physique Théorique
... keywords: mathematical description of physical systems, fonctional analysis, spectral analysis, partial differential equations, finite difference equations, constructive quantum field theory. - E10 Collective Phenomena and Out-of-Equilibrium Systems (Team leader: Claude-Alain Pillet; Effective staff ...
... keywords: mathematical description of physical systems, fonctional analysis, spectral analysis, partial differential equations, finite difference equations, constructive quantum field theory. - E10 Collective Phenomena and Out-of-Equilibrium Systems (Team leader: Claude-Alain Pillet; Effective staff ...
Operator Guide Standard Model
... functions of position and time. In order for interfere to occur, FA and FB must be able to take both positive and negative values. The interference occurs because their signs cause them to partially cancel when they are added together to give the total wave, F = FA (x; t) + FB (x; t). In summing two ...
... functions of position and time. In order for interfere to occur, FA and FB must be able to take both positive and negative values. The interference occurs because their signs cause them to partially cancel when they are added together to give the total wave, F = FA (x; t) + FB (x; t). In summing two ...
Charge Sensing and Spin Dynamics in GaAs Quantum Dots
... versatility become apparent. This thesis helps develop charge sensing from a technique under investigation in its own right to a robust method of measuring isolated systems, which yields otherwise inaccessible information about the energy spectra, the spin states, and the dynamics of electrons in a ...
... versatility become apparent. This thesis helps develop charge sensing from a technique under investigation in its own right to a robust method of measuring isolated systems, which yields otherwise inaccessible information about the energy spectra, the spin states, and the dynamics of electrons in a ...
A New and Feasible Protocol for Semi
... 3. Reordering quantum states, without measurement. (This operation is not used in this paper, but is useful for randomization-based protocols, such as the protocols described in [5,3].) 4. Moving or reflecting a quantum system or subsystem, without changing it. 5. Choosing a random bit. 6. All the r ...
... 3. Reordering quantum states, without measurement. (This operation is not used in this paper, but is useful for randomization-based protocols, such as the protocols described in [5,3].) 4. Moving or reflecting a quantum system or subsystem, without changing it. 5. Choosing a random bit. 6. All the r ...
Quantum Knots and Lattices, or a Blueprint for Quantum Systems
... Abstract. Within the framework of the cubic honeycomb (cubic tessellation) of Euclidean 3-space, we define a quantum system whose states, called quantum knots, represent a closed knotted piece of rope, i.e., represent the particular spatial configuration of a knot tied in a rope in 3-space. This qua ...
... Abstract. Within the framework of the cubic honeycomb (cubic tessellation) of Euclidean 3-space, we define a quantum system whose states, called quantum knots, represent a closed knotted piece of rope, i.e., represent the particular spatial configuration of a knot tied in a rope in 3-space. This qua ...
