![Bose-Glass Phases of Ultracold Atoms due to Cavity Backaction Hessam Habibian,](http://s1.studyres.com/store/data/008906720_1-c04b4e4d0d2e47268ed435722ab3aab2-300x300.png)
Bose-Glass Phases of Ultracold Atoms due to Cavity Backaction Hessam Habibian,
... diffraction of light by atoms in optical lattices was measured for various geometries and settings, from gratings of laser-cooled atoms [2–5] to ultracold bosons in the Mottinsulator (MI) phase [6]. In most of these setups, the mechanical effect of the scattered light on the density distribution of ...
... diffraction of light by atoms in optical lattices was measured for various geometries and settings, from gratings of laser-cooled atoms [2–5] to ultracold bosons in the Mottinsulator (MI) phase [6]. In most of these setups, the mechanical effect of the scattered light on the density distribution of ...
Electronic Structure of Clusters
... How is it then, that organic chemists, armed only with pencil, paper, and some knowledge of basic molecular orbital theory and the Woodward – Hoffmann rules,33 can often successfully predict the outcome of apparently complex organic reactions? The simple answer is that the bonding in such systems is ...
... How is it then, that organic chemists, armed only with pencil, paper, and some knowledge of basic molecular orbital theory and the Woodward – Hoffmann rules,33 can often successfully predict the outcome of apparently complex organic reactions? The simple answer is that the bonding in such systems is ...
Chapter 4
... oxidizing agent = the substance that is reduced (Cl2) reducing agent = the substance that is oxidized (Na) Oxidation and reduction always occur together so that there is no net loss or gain of electrons overall. ...
... oxidizing agent = the substance that is reduced (Cl2) reducing agent = the substance that is oxidized (Na) Oxidation and reduction always occur together so that there is no net loss or gain of electrons overall. ...
Slide 1
... I. Oxidation & Reduction -a substance which ________ oxidizes another substance by ________ accepting its ________ electrons is called an ________ oxidizing _____, agent which is also reduced the substance that is _______ -a substance which _______ reduces another substance by ______ losing ________ ...
... I. Oxidation & Reduction -a substance which ________ oxidizes another substance by ________ accepting its ________ electrons is called an ________ oxidizing _____, agent which is also reduced the substance that is _______ -a substance which _______ reduces another substance by ______ losing ________ ...
PCCP PERSPECTIVE
... experiment alone. Computer simulations, on the other hand, provide such information in atomic detail, and can thus complement experiments in unraveling the details of photochemical processes in biological systems. In this perspective we will show how computer simulations may be used to shed light on ...
... experiment alone. Computer simulations, on the other hand, provide such information in atomic detail, and can thus complement experiments in unraveling the details of photochemical processes in biological systems. In this perspective we will show how computer simulations may be used to shed light on ...
13.0 Redox Reactions PowerPoint
... Notice that both of these half-reactions are balanced by mass (same number of atoms/ions of each element on both sides) and by charge (same total charge on both sides) ...
... Notice that both of these half-reactions are balanced by mass (same number of atoms/ions of each element on both sides) and by charge (same total charge on both sides) ...
Chemistry (SPA)
... For over 2000 years, people have wondered about the fundamental building blocks of matter. As far back as 440 BC, the Greek Leucippus and his pupil Democritus coined the term atomos to describe the smallest particle of matter. It translates to mean something that is indivisible. In the eighteenth ce ...
... For over 2000 years, people have wondered about the fundamental building blocks of matter. As far back as 440 BC, the Greek Leucippus and his pupil Democritus coined the term atomos to describe the smallest particle of matter. It translates to mean something that is indivisible. In the eighteenth ce ...
Chapter
... • compound must have no total charge, therefore we must balance the numbers of cations and anions in a compound to get 0 charge • if Na+ is combined with S2-, you will need 2 Na+ ions for every S2- ion to balance the charges, therefore the formula must be Na2S Tro, Chemistry: A Molecular Approach ...
... • compound must have no total charge, therefore we must balance the numbers of cations and anions in a compound to get 0 charge • if Na+ is combined with S2-, you will need 2 Na+ ions for every S2- ion to balance the charges, therefore the formula must be Na2S Tro, Chemistry: A Molecular Approach ...
4 ORGANIC CHEMISTRY: STRUCTURE AND NOMENCLATURE
... Carbon has four valence electrons (2s2 2p2), and it must either gain four electrons or lose four electrons to reach a rare gas configuration. The electronegativity of carbon is too small for carbon to gain electrons from most elements to form C4 ions, and too large for carbon to lose electrons to f ...
... Carbon has four valence electrons (2s2 2p2), and it must either gain four electrons or lose four electrons to reach a rare gas configuration. The electronegativity of carbon is too small for carbon to gain electrons from most elements to form C4 ions, and too large for carbon to lose electrons to f ...
The quantum speed limit of optimal controlled phasegates for
... the implementation of a set of universal gates [1]. The most difficult part is generally the two-qubit gate since it involves interaction between two otherwise isolated quantum systems. In proposals for quantum computing with ultracold neutral-atom collisions [2, 3], the two-qubit gate operation inv ...
... the implementation of a set of universal gates [1]. The most difficult part is generally the two-qubit gate since it involves interaction between two otherwise isolated quantum systems. In proposals for quantum computing with ultracold neutral-atom collisions [2, 3], the two-qubit gate operation inv ...
8 SHS Ch 8 Lecture shs_ch_8_lecture_2012
... Step 2 . To balance C's, 5 must be inserted in front of C O 2. 1 C 5H12 + O2 --> 5CO2 + H 2O Step 3 . To balance H 's, 6 must be inserted in front of H 2O . 1 C 5H12 + O2 --> 5CO2 + 6 H2O Step 4 . To balance O's, 8 must be inserted in front of O 2 . 1 C 5H12 + 8O2 = 5CO2 + 6H2O E rase 1 from the equ ...
... Step 2 . To balance C's, 5 must be inserted in front of C O 2. 1 C 5H12 + O2 --> 5CO2 + H 2O Step 3 . To balance H 's, 6 must be inserted in front of H 2O . 1 C 5H12 + O2 --> 5CO2 + 6 H2O Step 4 . To balance O's, 8 must be inserted in front of O 2 . 1 C 5H12 + 8O2 = 5CO2 + 6H2O E rase 1 from the equ ...
Quantum computing implementations with neutral
... of gates, processes the information. The concept of gate is fundamental in quantum computation [1], and therefore we first consider its classical analogue. A gate on a classical computer, which implements a Boolean function, is a device that accomplishes a well-defined operation on one or more bits. ...
... of gates, processes the information. The concept of gate is fundamental in quantum computation [1], and therefore we first consider its classical analogue. A gate on a classical computer, which implements a Boolean function, is a device that accomplishes a well-defined operation on one or more bits. ...
Prentice Hall Ch 02 Atoms Molecules Ions
... We usually write mass ratios in a form such as “the ratio of O to Mg is 0.6583:1.” The first number represents the mass of the first element named—in this case, a mass of oxygen, say 0.6583 g oxygen—and the second number represents the mass of the second element named—here a mass of magnesium. Altho ...
... We usually write mass ratios in a form such as “the ratio of O to Mg is 0.6583:1.” The first number represents the mass of the first element named—in this case, a mass of oxygen, say 0.6583 g oxygen—and the second number represents the mass of the second element named—here a mass of magnesium. Altho ...
Photoactivation mechanism of PAmCherry based on crystal
... Photoactivatable fluorescent proteins (PAFPs) are required for super-resolution imaging of live cells. Recently, the first red PAFP, PAmCherry1, was reported, which complements the photoactivatable GFP by providing a red super-resolution color. PAmCherry1 is originally ‘‘dark’’ but exhibits red fluo ...
... Photoactivatable fluorescent proteins (PAFPs) are required for super-resolution imaging of live cells. Recently, the first red PAFP, PAmCherry1, was reported, which complements the photoactivatable GFP by providing a red super-resolution color. PAmCherry1 is originally ‘‘dark’’ but exhibits red fluo ...
The influence of the different elements of an organic molecule
... activation (E) and pre-exponent (A) uniformly, i.e., either increase or reduce both of them. In the framework of the effect considered in the present paper, both Arrhenius parameters are closely bound one to another quantitatively. Indeed, the mobilization of energy quantity E from the internal ene ...
... activation (E) and pre-exponent (A) uniformly, i.e., either increase or reduce both of them. In the framework of the effect considered in the present paper, both Arrhenius parameters are closely bound one to another quantitatively. Indeed, the mobilization of energy quantity E from the internal ene ...
Review Unit: Chemistry Review
... in matter. Chemistry is everywhere around you, because you and your surroundings are composed of chemicals with a variety of properties. However, chemistry involves more than the study of chemicals. It also includes studying chemical reactions, chemical technologies, and their effects on the environ ...
... in matter. Chemistry is everywhere around you, because you and your surroundings are composed of chemicals with a variety of properties. However, chemistry involves more than the study of chemicals. It also includes studying chemical reactions, chemical technologies, and their effects on the environ ...
AP Chemistry - Freehold Regional High School District
... Dimensional analysis is a powerful tool in problem solving. Matter is divided into two broad category. 1. Students will understand that scientific processes, unit conversions, data analysis, and safety procedures are essential to comprehensive study of Advanced Placement Chemistry and proper laborat ...
... Dimensional analysis is a powerful tool in problem solving. Matter is divided into two broad category. 1. Students will understand that scientific processes, unit conversions, data analysis, and safety procedures are essential to comprehensive study of Advanced Placement Chemistry and proper laborat ...
CLUE - virtual laboratories
... combination that leads to the widespread public misunderstanding of chemical principles. How many times do we hear about “natural remedies, without drugs or chemicals,” despite the fact that everything is composed of chemicals and the most toxic chemicals known are natural products.2 A growing body ...
... combination that leads to the widespread public misunderstanding of chemical principles. How many times do we hear about “natural remedies, without drugs or chemicals,” despite the fact that everything is composed of chemicals and the most toxic chemicals known are natural products.2 A growing body ...
H2 Adsorption on 3d Transition Metal Clusters
... metal atoms using the TURBOMOLE quantum chemistry package.39-41 The calculations employ the BP86 parametrization of the exchange correlation functional and a triple-ζ valence plus polarization (TZVP) basis set for all atoms.42 It has been shown that this approach gives good agreement with experiment ...
... metal atoms using the TURBOMOLE quantum chemistry package.39-41 The calculations employ the BP86 parametrization of the exchange correlation functional and a triple-ζ valence plus polarization (TZVP) basis set for all atoms.42 It has been shown that this approach gives good agreement with experiment ...
Observation of mesoscopic crystalline structures in a two
... the absence of optical driving. It is instructive to group the large number of many-body states, 2Nat , according to the number of Rydberg excitations, Ne , contained in each state (Fig. 1a). All singly excited states (Ne = 1) with different positions of the Rydberg atom have identical energies and ...
... the absence of optical driving. It is instructive to group the large number of many-body states, 2Nat , according to the number of Rydberg excitations, Ne , contained in each state (Fig. 1a). All singly excited states (Ne = 1) with different positions of the Rydberg atom have identical energies and ...
Binuclear Metal Complexes of a Doubly Bridged Cyclopentadienyl
... Binuclear metal complexes derived from the doubly bridged cyclopentadiene system 2,2,8,8-tetramethyl-2,8-di~ilatricyclo[7.3.O.O3~7]dodeca-3,5,9,ll-tetraene (LH,) are examined. This compound is deprotonated with 2 equiv of l-butyllithiumto form the dilithio salt LLi2(2). Reaction of 2 with trimethylt ...
... Binuclear metal complexes derived from the doubly bridged cyclopentadiene system 2,2,8,8-tetramethyl-2,8-di~ilatricyclo[7.3.O.O3~7]dodeca-3,5,9,ll-tetraene (LH,) are examined. This compound is deprotonated with 2 equiv of l-butyllithiumto form the dilithio salt LLi2(2). Reaction of 2 with trimethylt ...
(NH 3 ) 2 - GZ @ Science Class Online
... Ionic Bonding is where one atom completely takes valence electrons from another to form ions and the resulting negative and positive ions hold together with electrostatic attraction. This type of bonding occurs when a metal and non-metal react and there is a transfer of electrons to form ions. The i ...
... Ionic Bonding is where one atom completely takes valence electrons from another to form ions and the resulting negative and positive ions hold together with electrostatic attraction. This type of bonding occurs when a metal and non-metal react and there is a transfer of electrons to form ions. The i ...
Chemical bond
A chemical bond is an attraction between atoms that allows the formation of chemical substances that contain two or more atoms. The bond is caused by the electrostatic force of attraction between opposite charges, either between electrons and nuclei, or as the result of a dipole attraction. The strength of chemical bonds varies considerably; there are ""strong bonds"" such as covalent or ionic bonds and ""weak bonds"" such as Dipole-dipole interaction, the London dispersion force and hydrogen bonding.Since opposite charges attract via a simple electromagnetic force, the negatively charged electrons that are orbiting the nucleus and the positively charged protons in the nucleus attract each other. An electron positioned between two nuclei will be attracted to both of them, and the nuclei will be attracted toward electrons in this position. This attraction constitutes the chemical bond. Due to the matter wave nature of electrons and their smaller mass, they must occupy a much larger amount of volume compared with the nuclei, and this volume occupied by the electrons keeps the atomic nuclei relatively far apart, as compared with the size of the nuclei themselves. This phenomenon limits the distance between nuclei and atoms in a bond.In general, strong chemical bonding is associated with the sharing or transfer of electrons between the participating atoms. The atoms in molecules, crystals, metals and diatomic gases—indeed most of the physical environment around us—are held together by chemical bonds, which dictate the structure and the bulk properties of matter.All bonds can be explained by quantum theory, but, in practice, simplification rules allow chemists to predict the strength, directionality, and polarity of bonds. The octet rule and VSEPR theory are two examples. More sophisticated theories are valence bond theory which includes orbital hybridization and resonance, and the linear combination of atomic orbitals molecular orbital method which includes ligand field theory. Electrostatics are used to describe bond polarities and the effects they have on chemical substances.