Permanent electric dipole moment effect on the electronic states in CdSe/ZnS core-shell quantum dots under electric field Mihail Cristea
... the ground state energy decreases with increasing electric field strength. For a nanocrystal without PEDM subjected to an electric field, the electron ground state energy have a red shift . Consider now a PEDM in the core-shell nanostructure. Even in the absence of the electric field, the electron-P ...
... the ground state energy decreases with increasing electric field strength. For a nanocrystal without PEDM subjected to an electric field, the electron ground state energy have a red shift . Consider now a PEDM in the core-shell nanostructure. Even in the absence of the electric field, the electron-P ...
"Strange nuclear materials"()
... Beta decay electrons appeared to break the law of conservation of energy. The nucleus emitting the electron has a definite energy, and the nucleus produced in the decay has a definite energy, but the electrons emerge with a range of energies always less than the difference in energy between the init ...
... Beta decay electrons appeared to break the law of conservation of energy. The nucleus emitting the electron has a definite energy, and the nucleus produced in the decay has a definite energy, but the electrons emerge with a range of energies always less than the difference in energy between the init ...
Review on Nucleon Spin Structure
... either solely attributed to the quark Pauli spin, as did in the last thirty years in CQM, and the nonrelativistic quark orbital angular momentum does not contribute to the nucleon spin; or • part of the nucleon spin is attributed to the relativistic quark spin, it is measured in DIS and better to ca ...
... either solely attributed to the quark Pauli spin, as did in the last thirty years in CQM, and the nonrelativistic quark orbital angular momentum does not contribute to the nucleon spin; or • part of the nucleon spin is attributed to the relativistic quark spin, it is measured in DIS and better to ca ...
Probabilistic instantaneous quantum computation
... projected onto the state resulting from the correct input and she does not have to perform any additional transformation on qubits 3. In the remaining 1⫺(1/4) n cases, the result of the engineer’s Bell-state analysis will not be the right one. However, in a situation 关as defined by conditions 共1兲–共3 ...
... projected onto the state resulting from the correct input and she does not have to perform any additional transformation on qubits 3. In the remaining 1⫺(1/4) n cases, the result of the engineer’s Bell-state analysis will not be the right one. However, in a situation 关as defined by conditions 共1兲–共3 ...
Module P7.1 The atomic basis of matter
... speculations to more recent, but still vague, scientific speculations. In the course of this, we discuss Avogadro’s hypothesis about the nature of gases and the scale of atomic sizes indicated by Avogadro’s constant. In Section 3 we outline various phenomena and experiments which provide us with pro ...
... speculations to more recent, but still vague, scientific speculations. In the course of this, we discuss Avogadro’s hypothesis about the nature of gases and the scale of atomic sizes indicated by Avogadro’s constant. In Section 3 we outline various phenomena and experiments which provide us with pro ...
PDF (Author Accepted Manuscript) - CLoK
... Sun as the primaries and a spacecraft as the planetoid. This scheme allows us to take into account the solar perturbation in the description of the motion of a spacecraft in the vicinity of the stable Earth-Moon libration points L4 and L5 both in the classical regime and in the context of effective ...
... Sun as the primaries and a spacecraft as the planetoid. This scheme allows us to take into account the solar perturbation in the description of the motion of a spacecraft in the vicinity of the stable Earth-Moon libration points L4 and L5 both in the classical regime and in the context of effective ...
Topological Hunds rules and the electronic properties of a triple
... nected to electron reservoirs and under bias. The rectifying behavior of the system predicted in this analysis was confirmed experimentally.18 Landrón de Guevara and Orellana37 calculated the zero-temperature conductance through a linear molecule coupled in parallel to the leads using a Hubbard ap ...
... nected to electron reservoirs and under bias. The rectifying behavior of the system predicted in this analysis was confirmed experimentally.18 Landrón de Guevara and Orellana37 calculated the zero-temperature conductance through a linear molecule coupled in parallel to the leads using a Hubbard ap ...
Advanced Electromagnetism. - Fondation Louis de Broglie
... Phenomena" [5], where he put forward the idea of a general constructive role of symmetry in physics and emphasized the importance of dissymmetry in the appearance of phenomena. He described the Curie groups : a classification of physical invariance groups of limited objects in tridimensional space, ...
... Phenomena" [5], where he put forward the idea of a general constructive role of symmetry in physics and emphasized the importance of dissymmetry in the appearance of phenomena. He described the Curie groups : a classification of physical invariance groups of limited objects in tridimensional space, ...
Vertical electron transport in van der Waals heterostructures with
... is virtually independent on N. However, when EC is not so small, the potential drop across the quasi-neutral region becomes essential and dependent on N. In this case, the current-voltage characteristics at different N can be markedly different (see curves for EC ¼ 7:5 kV/cm in Fig. 3). V. POTENTIAL ...
... is virtually independent on N. However, when EC is not so small, the potential drop across the quasi-neutral region becomes essential and dependent on N. In this case, the current-voltage characteristics at different N can be markedly different (see curves for EC ¼ 7:5 kV/cm in Fig. 3). V. POTENTIAL ...
Chapter 7 The Quantum Mechanical Model of the Atom
... shape of the orbital • l can have integer values from 0 to (n – 1) • each value of l is called by a particular letter that designates the shape of the orbital s orbitals are spherical p orbitals are like two balloons tied at the knots d orbitals are mainly like 4 balloons tied at the knot f orbi ...
... shape of the orbital • l can have integer values from 0 to (n – 1) • each value of l is called by a particular letter that designates the shape of the orbital s orbitals are spherical p orbitals are like two balloons tied at the knots d orbitals are mainly like 4 balloons tied at the knot f orbi ...
spin_conference_xie
... Electrons and holes are both spin up. With an e-h attractive interaction, e and h may form an e-h pair and then condense into a spin superconductor at low T. ...
... Electrons and holes are both spin up. With an e-h attractive interaction, e and h may form an e-h pair and then condense into a spin superconductor at low T. ...
Chapter 7 The Quantum Mechanical Model of the Atom
... shape of the orbital • l can have integer values from 0 to (n – 1) • each value of l is called by a particular letter that designates the shape of the orbital s orbitals are spherical p orbitals are like two balloons tied at the knots d orbitals are mainly like 4 balloons tied at the knot f orbi ...
... shape of the orbital • l can have integer values from 0 to (n – 1) • each value of l is called by a particular letter that designates the shape of the orbital s orbitals are spherical p orbitals are like two balloons tied at the knots d orbitals are mainly like 4 balloons tied at the knot f orbi ...
Vapor REPORTS Observation Condensation
... the detailed properties of the macroscopic quantum state and allow only a small fraction of the particles to occupy the Bose condensed state. Recently, evidence of Bose condensation in a gas of excitons in a semiconductor host has been reported (5). The interactions in these systems are weak but poo ...
... the detailed properties of the macroscopic quantum state and allow only a small fraction of the particles to occupy the Bose condensed state. Recently, evidence of Bose condensation in a gas of excitons in a semiconductor host has been reported (5). The interactions in these systems are weak but poo ...
At what time does a quantum experiment have a result?
... ‘experimental questions’. Underlying this idea is the notion that a projector, P , represents a (possible) property of the system. An experimental question asks: “Does the system have property P ?” Each projector P defines a Heisenberg picture family of observables Pt = Ut† P Ut corresponding to ask ...
... ‘experimental questions’. Underlying this idea is the notion that a projector, P , represents a (possible) property of the system. An experimental question asks: “Does the system have property P ?” Each projector P defines a Heisenberg picture family of observables Pt = Ut† P Ut corresponding to ask ...
Unified and Generalized Approach to Quantum Error Correction David Kribs, Raymond Laflamme,
... for the possibility of operator quantum error corrections, but does not address sufficiency. At the time of writing, we have not proved sufficiency in full generality. We have, however, demonstrated that these conditions are sufficient for a number of motivating special cases. This topic will be dis ...
... for the possibility of operator quantum error corrections, but does not address sufficiency. At the time of writing, we have not proved sufficiency in full generality. We have, however, demonstrated that these conditions are sufficient for a number of motivating special cases. This topic will be dis ...
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).