The Weirdness of Quantum Mechanics
... The Copenhagen interpretation views the measurement device as distinct from a “normal” quantum system The Copenhagen (“orthodox”) Interpretation - N. Bohr Particles properties cannot be assigned values independent of measurement. Measurement collapses the wavefunction. “Observations not only distur ...
... The Copenhagen interpretation views the measurement device as distinct from a “normal” quantum system The Copenhagen (“orthodox”) Interpretation - N. Bohr Particles properties cannot be assigned values independent of measurement. Measurement collapses the wavefunction. “Observations not only distur ...
QUANTUM COMPUTATION: THE TOPOLOGICAL APPROACH
... have reasons tobelieve these ALGEBRAIC structures will be more stable. Before we would attempt to build a quantum computer we would manufacture first mathematically, and then materially, a little two-dimensional universe unto itself. It is impossible to overstate how astonishingly different the phys ...
... have reasons tobelieve these ALGEBRAIC structures will be more stable. Before we would attempt to build a quantum computer we would manufacture first mathematically, and then materially, a little two-dimensional universe unto itself. It is impossible to overstate how astonishingly different the phys ...
GRW Theory - Roman Frigg
... predictions of GRW Theory coincide almost always with those of standard QM (there are domains in which the two theories do not yield the same predictions, but these are (so far) beyond the reach of experimental test; see Rimini [15]). Due to the mathematical structure of QM (more specifically, due t ...
... predictions of GRW Theory coincide almost always with those of standard QM (there are domains in which the two theories do not yield the same predictions, but these are (so far) beyond the reach of experimental test; see Rimini [15]). Due to the mathematical structure of QM (more specifically, due t ...
Time in Quantum Theory
... asymptotic states. This includes the 'dressing' of quantum fields. However, macroscopic systems always form open systems; they never become isolated, even when dressed. Such systems may approximately obey effective non-unitary dynamics (master equations). In principle, this dynamics has to be derive ...
... asymptotic states. This includes the 'dressing' of quantum fields. However, macroscopic systems always form open systems; they never become isolated, even when dressed. Such systems may approximately obey effective non-unitary dynamics (master equations). In principle, this dynamics has to be derive ...
generation of arbitrary quantum states from atomic ensembles
... Duan, Lukin, Cirac and Zoller (DLCZ) . While DLCZ and incoherent light. In order to filter background utilize only the first-order term of the evolution under the photons, we employ a monolithic spherical Fabry-Perot system’s Hamiltonian, higher-order terms can be used in cavity with a 55 MHz linewi ...
... Duan, Lukin, Cirac and Zoller (DLCZ) . While DLCZ and incoherent light. In order to filter background utilize only the first-order term of the evolution under the photons, we employ a monolithic spherical Fabry-Perot system’s Hamiltonian, higher-order terms can be used in cavity with a 55 MHz linewi ...
A First Introduction to Quantum Behavior
... (Feynman 1985), in which he describes in the simplest possible terms his ‘sum over histories’ or ‘many paths’ approach to quantum mechanics. Others have tried something similar (see Hanc et al 2005). The Feynman approach in essence ‘…Dick Feynman told me about his … version of quantum mechanics. “Th ...
... (Feynman 1985), in which he describes in the simplest possible terms his ‘sum over histories’ or ‘many paths’ approach to quantum mechanics. Others have tried something similar (see Hanc et al 2005). The Feynman approach in essence ‘…Dick Feynman told me about his … version of quantum mechanics. “Th ...
Nanodevices for quantum computation
... We can think about a degenerate state in the space of Cooper pair numbers Thus, the classical Hamiltonian is: ...
... We can think about a degenerate state in the space of Cooper pair numbers Thus, the classical Hamiltonian is: ...
Press Release Equivalence principle also valid for atoms
... leaning tower in Pisa. He found that all objects reached the ground at the same time. This illustrates the more general result that in a gravitational field the motion of all bodies is the same independent of their mass and composition. Einstein took up this finding to formulate the “equivalence pri ...
... leaning tower in Pisa. He found that all objects reached the ground at the same time. This illustrates the more general result that in a gravitational field the motion of all bodies is the same independent of their mass and composition. Einstein took up this finding to formulate the “equivalence pri ...