Quantum computation and Shor`s factoring algorithm
... configurations. The transition between configurations is completely determined by the rules in Eq. (1). Note that the operation of the machine is ‘‘local’’ in the sense that the transition between configurations depends only on the currently scanned tape symbol (and the head state) rather than on th ...
... configurations. The transition between configurations is completely determined by the rules in Eq. (1). Note that the operation of the machine is ‘‘local’’ in the sense that the transition between configurations depends only on the currently scanned tape symbol (and the head state) rather than on th ...
M. Shiga and W. Shinoda, heat capacity of water from quantum nuclear dynamics
... the anharmonic and quantum effects are taken into account. Path-integral molecular dynamics 共PIMD兲 is a simulation method which can generally be used for quantum molecular systems with or without anharmonic effects. This method is based on Feynman’s imaginary-time path-integral theory of the quantum ...
... the anharmonic and quantum effects are taken into account. Path-integral molecular dynamics 共PIMD兲 is a simulation method which can generally be used for quantum molecular systems with or without anharmonic effects. This method is based on Feynman’s imaginary-time path-integral theory of the quantum ...
K a - IDEALS @ Illinois
... for Ka up to (a maximum of) 12. • Our energy-momentum map contains all of the structure due to quantum monodromy expected for a quasi-linear molecule. • Stephen Ross’ GSRB Hamiltonian proved excellent at predicting the positions of these energy levels, even though only pure rotational spectra were i ...
... for Ka up to (a maximum of) 12. • Our energy-momentum map contains all of the structure due to quantum monodromy expected for a quasi-linear molecule. • Stephen Ross’ GSRB Hamiltonian proved excellent at predicting the positions of these energy levels, even though only pure rotational spectra were i ...
Get PDF - OSA Publishing
... and γ is the atom–reservoir coupling rate. We assume the reservoir has a continuum of modes centered around the atomic transition frequency Ω. We further assume that within the spectral range of interest the dispersion of these reservoir modes is well described by a group velocity vr . The reservoir ...
... and γ is the atom–reservoir coupling rate. We assume the reservoir has a continuum of modes centered around the atomic transition frequency Ω. We further assume that within the spectral range of interest the dispersion of these reservoir modes is well described by a group velocity vr . The reservoir ...
Polarized Light and Quantum Mechanics
... Polarized Light and Quantum Mechanics Introduction Readily available and inexpensive polarizing films can be used to illustrate many fundamental quantum mechanical concepts. The purpose of this tutorial is to use polarized light to illustrate one of quantum theory’s deepest and most challenging conc ...
... Polarized Light and Quantum Mechanics Introduction Readily available and inexpensive polarizing films can be used to illustrate many fundamental quantum mechanical concepts. The purpose of this tutorial is to use polarized light to illustrate one of quantum theory’s deepest and most challenging conc ...
the quantum vacuum
... read the statement that „the vacuum is fast emerging as the central structure of modern physics“ (Saunders and Brown, 1991). Still considered by many to be not much more than a mathematical convenience without physical reality, in the past decades the vacuum has found increasing acknowledgement as t ...
... read the statement that „the vacuum is fast emerging as the central structure of modern physics“ (Saunders and Brown, 1991). Still considered by many to be not much more than a mathematical convenience without physical reality, in the past decades the vacuum has found increasing acknowledgement as t ...
How to hide a secret direction
... mechanics to keep secrets in different scenarios have been put forward over recent years. Quantum key distribution [1], which is probably the most prominent example, allows two parties to establish a secret random key. Using quantum secret sharing protocols [2] one can share secret information (clas ...
... mechanics to keep secrets in different scenarios have been put forward over recent years. Quantum key distribution [1], which is probably the most prominent example, allows two parties to establish a secret random key. Using quantum secret sharing protocols [2] one can share secret information (clas ...
Bohr`s Atomic Model and Paraconsistent Logic
... of stationary states aimed at offering scientists the opportunity to explicitly question, conceptually analyze and experimentally examine the behavior of the fundamental classical laws in the quantum domain. Ultimately, Bohr, “by emphasizing the conflict between these considerations [the non-classic ...
... of stationary states aimed at offering scientists the opportunity to explicitly question, conceptually analyze and experimentally examine the behavior of the fundamental classical laws in the quantum domain. Ultimately, Bohr, “by emphasizing the conflict between these considerations [the non-classic ...
glossery - Paradigm Shift Now
... passed through the double slit, but before it gets to the wall, we will record a photon flash in either one or the other of the two cameras. In the delayed choice experiment, we choose to know which slit the photon went through (camera option), or not (flat wall option) after the photon has passed t ...
... passed through the double slit, but before it gets to the wall, we will record a photon flash in either one or the other of the two cameras. In the delayed choice experiment, we choose to know which slit the photon went through (camera option), or not (flat wall option) after the photon has passed t ...
Particle Statistics Affects Quantum Decay and Fano Interference
... (a quantum wire), each with energy ϵ ¼ 0 [see Figs. 1(a) and 1(b)]. Thus, states j1i and j2i can decay by tunnelling to the common continuum given by the tight-binding lattice band of the quantum wire. The energy of the band spans the interval −2κ < E < 2κ, κ being the hopping rate between two adjac ...
... (a quantum wire), each with energy ϵ ¼ 0 [see Figs. 1(a) and 1(b)]. Thus, states j1i and j2i can decay by tunnelling to the common continuum given by the tight-binding lattice band of the quantum wire. The energy of the band spans the interval −2κ < E < 2κ, κ being the hopping rate between two adjac ...
Ex. = 1s 1 , 0 to (1-1)
... What is currently the highest possible principal quantum number an electron can have? ...
... What is currently the highest possible principal quantum number an electron can have? ...
H-Measures and Applications - International Mathematical Union
... once wrote "Quantum theory, it may be said, has two things in its favour and only one against. First, it agrees with all the experiments. Second, it is a theory of astonishing and profound mathematical beauty. The only thing to be said against the theory is that it makes absolutely no sense" . In or ...
... once wrote "Quantum theory, it may be said, has two things in its favour and only one against. First, it agrees with all the experiments. Second, it is a theory of astonishing and profound mathematical beauty. The only thing to be said against the theory is that it makes absolutely no sense" . In or ...
A Factor-Graph Representation of Probabilities in Quantum Mechanics
... [5]–[7]. Such graphical representations can be helpful in various ways, including elucidation of the model itself as well as the derivation of algorithms for statistical inference. So far, however, quantum mechanics (e.g., [8], [9]) has been standing apart. Despite being a statistical theory, quantu ...
... [5]–[7]. Such graphical representations can be helpful in various ways, including elucidation of the model itself as well as the derivation of algorithms for statistical inference. So far, however, quantum mechanics (e.g., [8], [9]) has been standing apart. Despite being a statistical theory, quantu ...
Semiclassical theory of helium atom
... (where n is an integer and h Planck's constant). It was natural to try this approach also for helium, the simplest atom with more than one electron. By applying Bohr's ad hoc quantization rule (1) to various periodic orbit configurations of the electron pair motion in helium (see Figure 2), a number ...
... (where n is an integer and h Planck's constant). It was natural to try this approach also for helium, the simplest atom with more than one electron. By applying Bohr's ad hoc quantization rule (1) to various periodic orbit configurations of the electron pair motion in helium (see Figure 2), a number ...
Decoherence - Center for Ultracold Atoms
... between an atom (which is referred to as the “system”) and the final momentum of the scattered photons (which collectively constitute the “environment”). In a second experiment, we replaced the random process of photon scattering with a deterministic momentum transfer caused by a diffraction grating ...
... between an atom (which is referred to as the “system”) and the final momentum of the scattered photons (which collectively constitute the “environment”). In a second experiment, we replaced the random process of photon scattering with a deterministic momentum transfer caused by a diffraction grating ...