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Physicists realize an atom laser, a source of coherent matter waves
... the ground state of the system. This transition from “disordered” to coherent matter waves can be compared to the step from incoherent light to laser light. Indeed, atom lasers based on BoseEinstein condensation have been recently realized. Bose-Einstein condensation occurs in thermal equilibrium. A ...
... the ground state of the system. This transition from “disordered” to coherent matter waves can be compared to the step from incoherent light to laser light. Indeed, atom lasers based on BoseEinstein condensation have been recently realized. Bose-Einstein condensation occurs in thermal equilibrium. A ...
Unit (1)
... (3) Write the scientific term: 1- The ability of the Earth to attract an object to its center. 2- An instrument used to change electric energy into magnetic energy. 3- The force that accompanies the massive amount of energy and it is stored in the nucleus. 4- Property of an object has to resist the ...
... (3) Write the scientific term: 1- The ability of the Earth to attract an object to its center. 2- An instrument used to change electric energy into magnetic energy. 3- The force that accompanies the massive amount of energy and it is stored in the nucleus. 4- Property of an object has to resist the ...
Coupled quantum dots as quantum gates
... terdot distance, i.e., for 2a@2a B , where a is half the distance between the centers of the dots, and a B5 A\/m v 0 is the effective Bohr radius of a single isolated harmonic well. This choice for the potential is motivated by the experimental fact5 that the spectrum of single dots in GaAs is well ...
... terdot distance, i.e., for 2a@2a B , where a is half the distance between the centers of the dots, and a B5 A\/m v 0 is the effective Bohr radius of a single isolated harmonic well. This choice for the potential is motivated by the experimental fact5 that the spectrum of single dots in GaAs is well ...
Performance analysis of single-electron
... Attempt to integrate sub-10 nm scaled complementary metal– oxide–semiconductor (CMOS) devices will face physical limitations in the near future. To tackle this problem several ideas have been proposed, where one of the most promising tends to use the Coulomb blockade mechanism in conducting island/t ...
... Attempt to integrate sub-10 nm scaled complementary metal– oxide–semiconductor (CMOS) devices will face physical limitations in the near future. To tackle this problem several ideas have been proposed, where one of the most promising tends to use the Coulomb blockade mechanism in conducting island/t ...
Ontological Status of Molecular Structure - HYLE-
... Part B: Levels of reality and the role of analogies B.1 The nature of the physical world The traditional expression ‘physical world’ covers all that can be detected directly or indirectly by our five senses. The above examples show that the claim that the whole physical world is nothing but ‘atoms a ...
... Part B: Levels of reality and the role of analogies B.1 The nature of the physical world The traditional expression ‘physical world’ covers all that can be detected directly or indirectly by our five senses. The above examples show that the claim that the whole physical world is nothing but ‘atoms a ...
Lab 1
... You should get either 500,000 or 5 105 and either is correct. IF YOU DID NOT GET THAT ANSWER THEN…….read on………. DO NOT’s of Scientific calculators. 1. DO NOT USE the 10X key. DO NOT enter the above numbers as 1 times 102 times 5 times 103 even though you get the same answer….IT IS A WASTE OF KEY S ...
... You should get either 500,000 or 5 105 and either is correct. IF YOU DID NOT GET THAT ANSWER THEN…….read on………. DO NOT’s of Scientific calculators. 1. DO NOT USE the 10X key. DO NOT enter the above numbers as 1 times 102 times 5 times 103 even though you get the same answer….IT IS A WASTE OF KEY S ...
100, 027001 (2008)
... depth can be used to hold the normal atoms near the vortex cores. The bias voltage "L can be adjusted by varying the intensity of the optical dipole trap, which changes the energy of the normal atoms with respect to atoms in the superfluid. The number of atoms in the normal phase can be measured thr ...
... depth can be used to hold the normal atoms near the vortex cores. The bias voltage "L can be adjusted by varying the intensity of the optical dipole trap, which changes the energy of the normal atoms with respect to atoms in the superfluid. The number of atoms in the normal phase can be measured thr ...
Plotting Functions
... 3. Plotting Radial Probability Functions. The properties of an element are determined primarily by valence electrons. The position of these electrons is described by their atomic orbiatls, which is a solution of the Schrodinger equation. It is not possible to solve the Schrodinger equation exactly f ...
... 3. Plotting Radial Probability Functions. The properties of an element are determined primarily by valence electrons. The position of these electrons is described by their atomic orbiatls, which is a solution of the Schrodinger equation. It is not possible to solve the Schrodinger equation exactly f ...
Suggested Student Schedule (progress chart – to be
... learning outcomes, delivery, scheduling, assessments and resources required for this course. COURSE DESCRIPTION This course is a study of the fundamental principles of chemistry with particular reference to chemical reactions and equations; energy in chemical systems; atomic and molecular structure; ...
... learning outcomes, delivery, scheduling, assessments and resources required for this course. COURSE DESCRIPTION This course is a study of the fundamental principles of chemistry with particular reference to chemical reactions and equations; energy in chemical systems; atomic and molecular structure; ...
09/11/03 lecture
... of neutrons and protons present in an atom…but how much does an atom weigh? What units do we describe the mass of an atom in? • The atomic mass unit (amu): defined explicitly in terms of the 12C atom--the mass of 1 12C atom = 12 amu. • All other atomic masses are defined relative to the 12C atom. ...
... of neutrons and protons present in an atom…but how much does an atom weigh? What units do we describe the mass of an atom in? • The atomic mass unit (amu): defined explicitly in terms of the 12C atom--the mass of 1 12C atom = 12 amu. • All other atomic masses are defined relative to the 12C atom. ...
Topic 7: Atomic and nuclear physics
... pudding" model of the atom in which all of the electrons were embedded in a spherical positive charge the size of the atom. ...
... pudding" model of the atom in which all of the electrons were embedded in a spherical positive charge the size of the atom. ...
Print this article - International Journal of Scientific Reports
... In the calculation of the energy of atoms and molecules, it is very difficult to calculate the interaction energy (especially the electron pairing energy). A way to solve this problem has been found- The experimental principle of measuring the electron pairing energy is found, a simple and practical ...
... In the calculation of the energy of atoms and molecules, it is very difficult to calculate the interaction energy (especially the electron pairing energy). A way to solve this problem has been found- The experimental principle of measuring the electron pairing energy is found, a simple and practical ...
Tunneling between Edge States in a Quantum Spin Hall System
... connected to a battery, a net spin current can tunnel through the junction, and one would like to know how the electronelectron interaction influences its conductance. This is the problem we shall address here. We consider the simplest situation with a single Kramers’ doublet of helical edge states, ...
... connected to a battery, a net spin current can tunnel through the junction, and one would like to know how the electronelectron interaction influences its conductance. This is the problem we shall address here. We consider the simplest situation with a single Kramers’ doublet of helical edge states, ...
Chemistry Entrance Material for Grade 11 to 12 Answer Key
... [-D-] it boils when heated in air Effect of temperature on vapour pressure 05. How does the vapour pressure of a liquid vary with temperature( T)? As T increase the vapor pressure increase. When a liquid boils it absorbs heat at constant temperature 06. When a liquid at its boiling point is heated, ...
... [-D-] it boils when heated in air Effect of temperature on vapour pressure 05. How does the vapour pressure of a liquid vary with temperature( T)? As T increase the vapor pressure increase. When a liquid boils it absorbs heat at constant temperature 06. When a liquid at its boiling point is heated, ...
Electron configuration
In atomic physics and quantum chemistry, the electron configuration is the distribution of electrons of an atom or molecule (or other physical structure) in atomic or molecular orbitals. For example, the electron configuration of the neon atom is 1s2 2s2 2p6.Electronic configurations describe electrons as each moving independently in an orbital, in an average field created by all other orbitals. Mathematically, configurations are described by Slater determinants or configuration state functions.According to the laws of quantum mechanics, for systems with only one electron, an energy is associated with each electron configuration and, upon certain conditions, electrons are able to move from one configuration to another by the emission or absorption of a quantum of energy, in the form of a photon.Knowledge of the electron configuration of different atoms is useful in understanding the structure of the periodic table of elements. The concept is also useful for describing the chemical bonds that hold atoms together. In bulk materials, this same idea helps explain the peculiar properties of lasers and semiconductors.