Magic-wavelength optical traps for Rydberg atoms S. Zhang, F. Robicheaux, and M. Saffman
... when the atom is at the origin. For the low atom temperatures expected for Cs, the atom will be very near the center of the trap and thus this coupling will be strongly suppressed. The next closest states are in the (n − 4) degenerate manifold (l = 4,5, . . .) and are separated from the 150s state b ...
... when the atom is at the origin. For the low atom temperatures expected for Cs, the atom will be very near the center of the trap and thus this coupling will be strongly suppressed. The next closest states are in the (n − 4) degenerate manifold (l = 4,5, . . .) and are separated from the 150s state b ...
Theoretical Descriptions of Complex Magnetism in Transition Metals
... In this thesis, various methods for studying solids by simulations of quantummechanical equations, have been applied to transition metals and their alloys. Transition metals such as Fe, Ni, and Mn, are not only cornerstones in modern technology, but also key components in the very fabric of the Eart ...
... In this thesis, various methods for studying solids by simulations of quantummechanical equations, have been applied to transition metals and their alloys. Transition metals such as Fe, Ni, and Mn, are not only cornerstones in modern technology, but also key components in the very fabric of the Eart ...
L Generation of squeezed states and twin beams system
... Refs. w2,3x.. Such a process is quite limited in spatial bandwidth, due to the constraints of x 2-type phase matching. What is necessary is a four-wave mixing process, obeying a x 3-type phase matching, that yields strong squeezing. As proposed originally by Yuen and Shapiro w12x, one of the best me ...
... Refs. w2,3x.. Such a process is quite limited in spatial bandwidth, due to the constraints of x 2-type phase matching. What is necessary is a four-wave mixing process, obeying a x 3-type phase matching, that yields strong squeezing. As proposed originally by Yuen and Shapiro w12x, one of the best me ...
CfE Advanced Higher Chemistry Unit 2: Organic
... mathematical functions for the two 1s orbitals that come together to form this molecule. A molecular orbital is a mathematical function describing the wave-like behaviour of an electron in a molecule. This function can be used to calculate chemical and physical properties such as the probability of ...
... mathematical functions for the two 1s orbitals that come together to form this molecule. A molecular orbital is a mathematical function describing the wave-like behaviour of an electron in a molecule. This function can be used to calculate chemical and physical properties such as the probability of ...
MU08-CHAPTER7.doc
... gluons being building blocks of protons and other similar particles, having fractional and color charges and other similar properties, concepts invented by theoretical physicists only in aim to conceal lack of ...
... gluons being building blocks of protons and other similar particles, having fractional and color charges and other similar properties, concepts invented by theoretical physicists only in aim to conceal lack of ...
Characterising Graph Symmetries through Quantum
... if we take two co-joined n-level binary trees that are connected at their leaves, a quantum walk commencing from the root of the first tree can hit the root of the second tree exponentially faster than a similarly defined classical random walk. The major contribution of Farhi and Gutmann’s work [8] ...
... if we take two co-joined n-level binary trees that are connected at their leaves, a quantum walk commencing from the root of the first tree can hit the root of the second tree exponentially faster than a similarly defined classical random walk. The major contribution of Farhi and Gutmann’s work [8] ...
Optical and Quantum Communications—J. H. Shapiro, N. C. Wong
... We are embarked on research in the area of quantum information technology whose goal is to enable the quantum-mechanical information transmission, storage, and processing needed for future applications in quantum computing and quantum communication. Our theoretical work in this area has focused on a ...
... We are embarked on research in the area of quantum information technology whose goal is to enable the quantum-mechanical information transmission, storage, and processing needed for future applications in quantum computing and quantum communication. Our theoretical work in this area has focused on a ...
DEVELOPMENT, IMPLEMENTATION AND APPLICATION OF ELECTRONIC STRUCTURAL DESCRIPTORS TO THE
... movement of the electron as a wave. At the same time, Werner Heisenberg set up a matricial treatment to explain the atom behavior, but his work was much harder to understand than wave mechanics used by Schrödinger and did not have much success. However, the most important scientist to contribute to ...
... movement of the electron as a wave. At the same time, Werner Heisenberg set up a matricial treatment to explain the atom behavior, but his work was much harder to understand than wave mechanics used by Schrödinger and did not have much success. However, the most important scientist to contribute to ...
The Microscopic Description of a Macroscopic Experiment
... If one wants to perform calculations beyond the independent-particle picture, the many-body wavefunctions can then be seen as linear combinations of Slater determinants. For each excited state m, there are many non-vanishing contributions to the spectral function (3.4) that give rise to a more compl ...
... If one wants to perform calculations beyond the independent-particle picture, the many-body wavefunctions can then be seen as linear combinations of Slater determinants. For each excited state m, there are many non-vanishing contributions to the spectral function (3.4) that give rise to a more compl ...
Stochastic semiclassical cosmological models
... particles in isotropic cosmologies. We shall not develop a full analysis, but rather focus on the new features brought by the explicit introduction of stochastic terms in the Einstein equations. The Hartle model has two perfect fluids, one of them with the equation of state of radiation and the othe ...
... particles in isotropic cosmologies. We shall not develop a full analysis, but rather focus on the new features brought by the explicit introduction of stochastic terms in the Einstein equations. The Hartle model has two perfect fluids, one of them with the equation of state of radiation and the othe ...
Molecular Modelling for Beginners
... produce the screenshots; obviously they look better in colour than the greyscale of this text. There are a number of classic (and hard) texts in the field; if I’m stuck with a basic molecular quantum mechanics problem, I usually reach for Eyring, Walter and Kimball’s Quantum Chemistry, but the going ...
... produce the screenshots; obviously they look better in colour than the greyscale of this text. There are a number of classic (and hard) texts in the field; if I’m stuck with a basic molecular quantum mechanics problem, I usually reach for Eyring, Walter and Kimball’s Quantum Chemistry, but the going ...
"Applications of nuclear physics"()
... close to each other. The other is the quantum rule known as the Pauli exclusion principle. This dictates that only two protons and two neutrons can occupy each possible quantum orbit. Every orbit must obey the Uncertainty Principle, but some orbits are more compact than others. Nucleons fall prefere ...
... close to each other. The other is the quantum rule known as the Pauli exclusion principle. This dictates that only two protons and two neutrons can occupy each possible quantum orbit. Every orbit must obey the Uncertainty Principle, but some orbits are more compact than others. Nucleons fall prefere ...
PDF
... ity of a measurement, and they observables such as position x and momentum p, the product of the consequence of the quantized naprovide an interesting challenge to spreads is lower-bounded: DxDp Q I/2, where I is Planck’s constant. The ture of the electromagnetic field devise quantum strategies that ...
... ity of a measurement, and they observables such as position x and momentum p, the product of the consequence of the quantized naprovide an interesting challenge to spreads is lower-bounded: DxDp Q I/2, where I is Planck’s constant. The ture of the electromagnetic field devise quantum strategies that ...
Hydrogen atom
A hydrogen atom is an atom of the chemical element hydrogen. The electrically neutral atom contains a single positively charged proton and a single negatively charged electron bound to the nucleus by the Coulomb force. Atomic hydrogen constitutes about 75% of the elemental (baryonic) mass of the universe.In everyday life on Earth, isolated hydrogen atoms (usually called ""atomic hydrogen"" or, more precisely, ""monatomic hydrogen"") are extremely rare. Instead, hydrogen tends to combine with other atoms in compounds, or with itself to form ordinary (diatomic) hydrogen gas, H2. ""Atomic hydrogen"" and ""hydrogen atom"" in ordinary English use have overlapping, yet distinct, meanings. For example, a water molecule contains two hydrogen atoms, but does not contain atomic hydrogen (which would refer to isolated hydrogen atoms).