
Dynamical Aspects of Information Storage in Quantum
... In this respect, the assumption of finite precision of all physically realizable state preparation, manipulation, and registration procedures is particularly important, and can even be treated as an empirical given. This premise is general enough to subsume (a) fundamental limitations imposed by the ...
... In this respect, the assumption of finite precision of all physically realizable state preparation, manipulation, and registration procedures is particularly important, and can even be treated as an empirical given. This premise is general enough to subsume (a) fundamental limitations imposed by the ...
Matrix Mechanics and Wave Mechanics - Philsci
... employment of mathematical techniques have no clear logical pretensions or consequences.1 Muller’s idea of the equivalence at stake is much stronger than this. He states that since “the essence of a physical theory lies in the mathematical structures it employs, to describe physical systems, the equ ...
... employment of mathematical techniques have no clear logical pretensions or consequences.1 Muller’s idea of the equivalence at stake is much stronger than this. He states that since “the essence of a physical theory lies in the mathematical structures it employs, to describe physical systems, the equ ...
An Introduction to Applied Quantum Mechanics in the Wigner Monte
... probability amplitudes was given, known nowadays as the Born rule (1926) [7]. In this explanation, the wave intensity is viewed as the probability of finding a particle rather than its density. In other words, the best possible description of a quantum system is of probabilistic nature. This interpr ...
... probability amplitudes was given, known nowadays as the Born rule (1926) [7]. In this explanation, the wave intensity is viewed as the probability of finding a particle rather than its density. In other words, the best possible description of a quantum system is of probabilistic nature. This interpr ...
The Light of Existence
... That it is because it is has never been a very satisfactory answer in science. In quantum realism, the speed of light is the network refresh rate, which is finite because every processor runs at a finite rate, e.g. a 5GHz computer runs at 5,000,000,000 cycles per second. If light goes from one node ...
... That it is because it is has never been a very satisfactory answer in science. In quantum realism, the speed of light is the network refresh rate, which is finite because every processor runs at a finite rate, e.g. a 5GHz computer runs at 5,000,000,000 cycles per second. If light goes from one node ...
full text
... for the original spherical pendulum, see Appendix B for details. The image of the EM map has now two leaves. Our particular example with hA ⬍ hB is illustrated in Fig. 5. In this figure, the larger leaf A represents both the vibrational states localized near the A minimum and rotational (delocalized ...
... for the original spherical pendulum, see Appendix B for details. The image of the EM map has now two leaves. Our particular example with hA ⬍ hB is illustrated in Fig. 5. In this figure, the larger leaf A represents both the vibrational states localized near the A minimum and rotational (delocalized ...
spins_unit_schrodinger_time_evolution
... **NOTE H is an operator, Ei are real, scalar, eigenvalues – the Hamiltonian is NOT the energy! Let’s put time back into the states – if the full eigenstates |ψ(t)> had no time-dependence then d/dt would yield zero, but the time dependence doesn’t “live” in the eigenstate of the hamiltonian since H h ...
... **NOTE H is an operator, Ei are real, scalar, eigenvalues – the Hamiltonian is NOT the energy! Let’s put time back into the states – if the full eigenstates |ψ(t)> had no time-dependence then d/dt would yield zero, but the time dependence doesn’t “live” in the eigenstate of the hamiltonian since H h ...
Ph.D. Thesis Rodrigo Gallego
... The device-independent formalism is a set of tools to analyze experimental data and infer properties about systems, while avoiding almost any assumption about the functioning of devices. It has found applications both in fundamental and applied physics: some examples are the characterization of quan ...
... The device-independent formalism is a set of tools to analyze experimental data and infer properties about systems, while avoiding almost any assumption about the functioning of devices. It has found applications both in fundamental and applied physics: some examples are the characterization of quan ...
Ph.D. Thesis Giuseppe Prettico
... and transmitted when encoded on quantum states. New information applications become possible when resorting to intrinsically quantum properties. Here we focus on the relations among some of these quantum properties. More precisely, we establish connections between entanglement distillation and secre ...
... and transmitted when encoded on quantum states. New information applications become possible when resorting to intrinsically quantum properties. Here we focus on the relations among some of these quantum properties. More precisely, we establish connections between entanglement distillation and secre ...