Symbols “R” Us: Seismic Imaging, One-Way Wave Equations, Pseudodifferential
... medium. We introduce dependence of K along the z axis, the transverse direction. Solving this problem will naturally lead us to the solution of the general problem in which we also have dependence on x, the propagation direction. As in the homogeneous case, right- and left-going waves are decoupled. ...
... medium. We introduce dependence of K along the z axis, the transverse direction. Solving this problem will naturally lead us to the solution of the general problem in which we also have dependence on x, the propagation direction. As in the homogeneous case, right- and left-going waves are decoupled. ...
Do not mess with time: Probing faster than light travel and
... The second kind is slightly more subtle but still quite puzzling. Indeed, backwards time travel would allow for causal loops involving events or informations whose histories form a closed loop, and thus seem to “come from nowhere”. For example, think of the causal loops where at some point ones trav ...
... The second kind is slightly more subtle but still quite puzzling. Indeed, backwards time travel would allow for causal loops involving events or informations whose histories form a closed loop, and thus seem to “come from nowhere”. For example, think of the causal loops where at some point ones trav ...
The Learnability of Quantum States
... Raz’s result actually has nothing to do with quantum mechanics, since IP/rpoly = ALL as well ...
... Raz’s result actually has nothing to do with quantum mechanics, since IP/rpoly = ALL as well ...
Photonic realization of nonlocal memory effects and non
... the photons, and hence increases the anticorrelation between the frequencies. We use four different pulse widths as described in more detail in the Methods Section. It is also worth noting that even though our experimental setup is based on downconversion, which is a commonly used tool to prepare sp ...
... the photons, and hence increases the anticorrelation between the frequencies. We use four different pulse widths as described in more detail in the Methods Section. It is also worth noting that even though our experimental setup is based on downconversion, which is a commonly used tool to prepare sp ...
An Introduction to QBism with an Application to the Locality of
... personal degrees of belief about the event. The personal character of probability includes cases in which the agent is certain about the event: even probabilities 0 and 1 are measures of an agent’s (very strongly held) belief. The subjective view returns probability theory to its historic origins in ...
... personal degrees of belief about the event. The personal character of probability includes cases in which the agent is certain about the event: even probabilities 0 and 1 are measures of an agent’s (very strongly held) belief. The subjective view returns probability theory to its historic origins in ...
THE QUANTUM BEATING AND ITS NUMERICAL SIMULATION
... second half of the last century (see [1, 2] and references therein; see also [3, 4] for studies of the pressure dependent transition mechanism) the effect of the ammonia molecule quantum environment can be modeled as a non-linear perturbation term added to the double well potential. A detailed quant ...
... second half of the last century (see [1, 2] and references therein; see also [3, 4] for studies of the pressure dependent transition mechanism) the effect of the ammonia molecule quantum environment can be modeled as a non-linear perturbation term added to the double well potential. A detailed quant ...
quantum - Word Format
... A Quantum Turing Machine (QTM) is a conceptual system that makes use of the quantum mechanical properties of particles to emulate the process of the classical Turing Machine. As a high-level computational model, the classical Turing Machine does not make any assumptions about its physical implementa ...
... A Quantum Turing Machine (QTM) is a conceptual system that makes use of the quantum mechanical properties of particles to emulate the process of the classical Turing Machine. As a high-level computational model, the classical Turing Machine does not make any assumptions about its physical implementa ...
Mutually unbiased bases, orthogonal Latin squares, and hidden
... 共MUBs兲: Every vector from one basis has equal overlap with all the vectors from other bases. MUBs encapsulate the concept of complementarity in the quantum formalism. Although complementarity is at the heart of quantum physics, the question about the number of MUBs remains unanswered. Apart from bei ...
... 共MUBs兲: Every vector from one basis has equal overlap with all the vectors from other bases. MUBs encapsulate the concept of complementarity in the quantum formalism. Although complementarity is at the heart of quantum physics, the question about the number of MUBs remains unanswered. Apart from bei ...
How to test the “quantumness” of a quantum computer? Miroslav Grajcar
... the question of its role for universal adiabatic quantum computing, and its more limited versions (such as quantum optimization or approximate adiabatic quantum computing) is being debated (see, e.g., [24, 25]). Quantum coherence is certainly necessary, but on what scale, and for how long? There is ...
... the question of its role for universal adiabatic quantum computing, and its more limited versions (such as quantum optimization or approximate adiabatic quantum computing) is being debated (see, e.g., [24, 25]). Quantum coherence is certainly necessary, but on what scale, and for how long? There is ...
example: on the Bloch sphere: this is a rotation around the equator
... The two measurement results are correlated! Correlations in quantum systems can be stronger than correlations in classical systems. This can be generally proven using the Bell inequalities which will be discussed later. Make use of such correlations as a resource for information processing, for exam ...
... The two measurement results are correlated! Correlations in quantum systems can be stronger than correlations in classical systems. This can be generally proven using the Bell inequalities which will be discussed later. Make use of such correlations as a resource for information processing, for exam ...
Diameters of rotationally and vibrationally excited diatomic molecules
... cm-1); rOeXe (the anharmonicity constant, in era-l); Re (the molecular bond length, in .~.); Vmax (the maximum value of the molecular vibrational quantum number): vth,~ax(Eq. (43)) and ~ (Eq. (63)); Jmax (the maximum value of the molecular rotational quantum number): both Jthax and Jr,~ax are obtain ...
... cm-1); rOeXe (the anharmonicity constant, in era-l); Re (the molecular bond length, in .~.); Vmax (the maximum value of the molecular vibrational quantum number): vth,~ax(Eq. (43)) and ~ (Eq. (63)); Jmax (the maximum value of the molecular rotational quantum number): both Jthax and Jr,~ax are obtain ...
Lecture 2 - Harvard Condensed Matter Theory group
... TOF experiments map momentum distributions to real space images Second order real-space correlations after TOF expansion can be related to second order momentum correlations inside the trapped system ...
... TOF experiments map momentum distributions to real space images Second order real-space correlations after TOF expansion can be related to second order momentum correlations inside the trapped system ...
Reply to seven commentaries on “Consciousness in the universe: ScienceDirect
... the foundation of brain information processing for decades . . . . This article [8] therefore marks the beginning of developing a comprehensive mathematical modeling of the brain. Hopefully, in the near future, with more experimental understanding of the space–time metric, Orch-OR would evolve to a ...
... the foundation of brain information processing for decades . . . . This article [8] therefore marks the beginning of developing a comprehensive mathematical modeling of the brain. Hopefully, in the near future, with more experimental understanding of the space–time metric, Orch-OR would evolve to a ...
Consciousness and Quantum Theory: Strange Bedfellows Barry Loewer
... |P=B1>|O=b1> or |P=B2>|O=b2> (with probabilities given by the squares of their amplitudes) which are eigenstates of O and P. This ‘solution’ to the measurement problem raises the problem of saying exactly which interactions count as measurements. Not every interaction in which one observable There a ...
... |P=B1>|O=b1> or |P=B2>|O=b2> (with probabilities given by the squares of their amplitudes) which are eigenstates of O and P. This ‘solution’ to the measurement problem raises the problem of saying exactly which interactions count as measurements. Not every interaction in which one observable There a ...
Quantum Superpositions and Causality: On the Multiple Paths to the
... which exists within rational potentiality is then characterized as being capable of both contrary effects.3 This also means that potentiality is capable of being and not being at one and the same time.4 The contradiction of being and not being present in rational potentiality is only dissolved when ...
... which exists within rational potentiality is then characterized as being capable of both contrary effects.3 This also means that potentiality is capable of being and not being at one and the same time.4 The contradiction of being and not being present in rational potentiality is only dissolved when ...
Integrable Systems: An Overview Preamble. The following pages
... during the first seventy years of the 20th century. Results by Poincaré, to the effect that integrability is a highly exceptional property for the systems usually considered in classical mechanics, were an important factor contributing to this lack of interest. This state of affairs changed dramati ...
... during the first seventy years of the 20th century. Results by Poincaré, to the effect that integrability is a highly exceptional property for the systems usually considered in classical mechanics, were an important factor contributing to this lack of interest. This state of affairs changed dramati ...
