Electrical Manipulation and Detection of Single Electron Spins in
... sailing a 38 feet yacht across the channel, though for manoeuvring the boat into the box in the harbor I still trust the skipper better :)... Frank has been my mentor in the beginning of the PhD, since I joined the experiment he had set up together with Christo, a master student when I started. And ...
... sailing a 38 feet yacht across the channel, though for manoeuvring the boat into the box in the harbor I still trust the skipper better :)... Frank has been my mentor in the beginning of the PhD, since I joined the experiment he had set up together with Christo, a master student when I started. And ...
Lecture 04 10 Sep 13 - MSU Engineering
... Increase in Mobility is based on decrease of scattering, or said another way, increase e-s not scattered. ...
... Increase in Mobility is based on decrease of scattering, or said another way, increase e-s not scattered. ...
Paper
... of interactions near Feshbach resonances was of limited applicability due to rapid losses. Feshbach resonances were used mainly to access molecular states of dimers and trimers. In contrast, for fermions, losses are heavily suppressed (see below), and so most of this review focuses on strongly inter ...
... of interactions near Feshbach resonances was of limited applicability due to rapid losses. Feshbach resonances were used mainly to access molecular states of dimers and trimers. In contrast, for fermions, losses are heavily suppressed (see below), and so most of this review focuses on strongly inter ...
Quantum Physics of Atoms, Molecules, Solids, Nuclei, and Particles
... Bohr magneton Nuclear magneton Bohr radius Bohr energy ...
... Bohr magneton Nuclear magneton Bohr radius Bohr energy ...
Hyperspherical Approach to Quantal Three-body Theory
... an increasingly large number of bound states (λ∗n is the value of λ that produces a = ∞ and n s-wave bound states). The Wν converge to a universal potential displaying the repulsive barrier at R ≈ 2rvdW that prevents particles access to short distances. (c)–(e) demonstrate the suppression of the wav ...
... an increasingly large number of bound states (λ∗n is the value of λ that produces a = ∞ and n s-wave bound states). The Wν converge to a universal potential displaying the repulsive barrier at R ≈ 2rvdW that prevents particles access to short distances. (c)–(e) demonstrate the suppression of the wav ...
Introduction - St. Olaf College
... The tutorials that follow provide a brief introduction to both the user interface and the calculation capabilities of Spartan Student. The intent is to provide hands-on experience with use of the user interface and in doing so, illustrate the set up, submission, and interpretation of molecular mecha ...
... The tutorials that follow provide a brief introduction to both the user interface and the calculation capabilities of Spartan Student. The intent is to provide hands-on experience with use of the user interface and in doing so, illustrate the set up, submission, and interpretation of molecular mecha ...
Electrical and structural characterization of metal germanides Albert Chawanda
... The first transistor invented in 1947 by J. Bardeen and W.H. Brattain used germanium (Ge) as the semi-conducting material [1]. This opened the door to countless applications of solid state electronics. From early 1970s, microelectronics has been primarily a silicon-based technology, not only because ...
... The first transistor invented in 1947 by J. Bardeen and W.H. Brattain used germanium (Ge) as the semi-conducting material [1]. This opened the door to countless applications of solid state electronics. From early 1970s, microelectronics has been primarily a silicon-based technology, not only because ...
Theoretical study of open-shell van der Waals complexes Anna V. Fishchuk
... in reactive encounters. In 1994 it was stated by Dubernet and Hutson [45] that van der Waals complexes “share many of the same dynamic features with transition states of chemical reactions such as wide-amplitude motion, including internal rotation etc., so that studying complexes can cast light on r ...
... in reactive encounters. In 1994 it was stated by Dubernet and Hutson [45] that van der Waals complexes “share many of the same dynamic features with transition states of chemical reactions such as wide-amplitude motion, including internal rotation etc., so that studying complexes can cast light on r ...
BRIEF ANSWERS TO SELECTED PROBLEMS APPENDIX G
... the total mass after reaction. 2.20(a) 1.34 g F (b) 0.514 Ca; 0.486 F (c) 51.4 mass % Ca; 48.6 mass % F 2.22(a) 0.603 (b) 322 g Mg 2.24 3.498 106 g Cu; 1.766 106 g S 2.26 compound 1: 0.905 S/Cl; compound 2: 0.451 S/Cl; ratio: 2.00/1.00 2.29 Coal A 2.31 Dalton postulated that atoms of an element ...
... the total mass after reaction. 2.20(a) 1.34 g F (b) 0.514 Ca; 0.486 F (c) 51.4 mass % Ca; 48.6 mass % F 2.22(a) 0.603 (b) 322 g Mg 2.24 3.498 106 g Cu; 1.766 106 g S 2.26 compound 1: 0.905 S/Cl; compound 2: 0.451 S/Cl; ratio: 2.00/1.00 2.29 Coal A 2.31 Dalton postulated that atoms of an element ...
Creation of Ultracold RbCs Ground
... realization of model systems from condensed matter physics with astonishing experimental control over all degrees of freedom and perfect decoupling from the external environment [Mor06, Blo08]. Thrilled by the great succes of atoms in optical lattices, theorists extended their models to strongly int ...
... realization of model systems from condensed matter physics with astonishing experimental control over all degrees of freedom and perfect decoupling from the external environment [Mor06, Blo08]. Thrilled by the great succes of atoms in optical lattices, theorists extended their models to strongly int ...
Devillez (ld2653) – Test 1 Review – Devillez – (99998)
... 1910, α (alpha) particles were fired at gold foil, and the resulting deflection of the particles were observed. Most of the α particles went through the sample undeflected, suggesting that much of the atom was empty space. But of the few α particles that were deflected, they were deflected at all an ...
... 1910, α (alpha) particles were fired at gold foil, and the resulting deflection of the particles were observed. Most of the α particles went through the sample undeflected, suggesting that much of the atom was empty space. But of the few α particles that were deflected, they were deflected at all an ...
pdf
... of solid surfaces where the atom-surface interactions can no longer be ignored. At longrange, the atom-surface interaction is described by the weakly attractive Casimir-Polder potential which is classically predicted to accelerate an incident atom toward the surface where it will interact strongly w ...
... of solid surfaces where the atom-surface interactions can no longer be ignored. At longrange, the atom-surface interaction is described by the weakly attractive Casimir-Polder potential which is classically predicted to accelerate an incident atom toward the surface where it will interact strongly w ...
Cavity Optomechanics in the Quantum Regime
... of atoms-based mechanical elements; mechanical elements, consisting of the collective center-of-mass (CM) motion of ultracold atomic ensembles and prepared inside a high-finesse Fabry-Pérot cavity, were dispersively probed with an average intracavity photon number as small as 0.1. I first show that ...
... of atoms-based mechanical elements; mechanical elements, consisting of the collective center-of-mass (CM) motion of ultracold atomic ensembles and prepared inside a high-finesse Fabry-Pérot cavity, were dispersively probed with an average intracavity photon number as small as 0.1. I first show that ...
Ionization
Ionization is the process by which an atom or a molecule acquires a negative or positive charge by gaining or losing electrons to form ions, often in conjunction with other chemical changes. Ionization can result from the loss of an electron after collisions with sub atomic particles, collisions with other atoms, molecules and ions, or through the interaction with light. Heterolytic bond cleavage and heterolytic substitution reactions can result in the formation of ion pairs. Ionization can occur through radioactive decay by the internal conversion process, in which an excited nucleus transfers its energy to one of the inner-shell electrons causing it to be ejected.