Generation of arbitrary Dicke states in spinor Bose±Einstein
... hJ^z i m0 6 0). By using our procedure however, this need not be the case. In order to create squeezed states with arbitrary prescribed value of hJ^z i m0 and arbitrary Dicke states, we propose to use instead the following method: ®rst, a coupling pulse of appropriate strength is applied to the ...
... hJ^z i m0 6 0). By using our procedure however, this need not be the case. In order to create squeezed states with arbitrary prescribed value of hJ^z i m0 and arbitrary Dicke states, we propose to use instead the following method: ®rst, a coupling pulse of appropriate strength is applied to the ...
Assessing the Nonequilibrium Thermodynamics in a
... implications for the statistics of work coming from considering processes described by operators that either commute or do not commute with the unperturbed Hamiltonian of a given system. We consider a quantum many-body system and derive an expression that allows us to give a physical interpretation, ...
... implications for the statistics of work coming from considering processes described by operators that either commute or do not commute with the unperturbed Hamiltonian of a given system. We consider a quantum many-body system and derive an expression that allows us to give a physical interpretation, ...
No. 1-fn.p65 - Department of Atomic Energy
... an understanding of where the beta rays viz. fast moving electrons that emanate from radioactive atoms, actually come from was not clear until Bohr had constructed his atomic model in 1913. From the Bohr’s model itself it had become clear that the energies of beta rays are too high and so the electr ...
... an understanding of where the beta rays viz. fast moving electrons that emanate from radioactive atoms, actually come from was not clear until Bohr had constructed his atomic model in 1913. From the Bohr’s model itself it had become clear that the energies of beta rays are too high and so the electr ...
Cryogenic Control Architecture for Large
... operation. In this configuration, the CPW feed line transitions to a microstrip geometry by contacting the electron gas to the planar ground planes using Ohmic contacts, as illustrated in Figs. 4(a) and 4(b). The two conductors in the microstrip transmission line are, thus, constructed using the top ...
... operation. In this configuration, the CPW feed line transitions to a microstrip geometry by contacting the electron gas to the planar ground planes using Ohmic contacts, as illustrated in Figs. 4(a) and 4(b). The two conductors in the microstrip transmission line are, thus, constructed using the top ...
Computer simulation by quantum mechanical time dependent wave
... characterise TEAS and MBS. Since, the interaction of the atom (e.g. He) – solid surface system changes abruptly near the classical turning point the classical trajectories are washed out. This fact supports the application of an appropriate quantum mechanical model. The probe particles of larger mas ...
... characterise TEAS and MBS. Since, the interaction of the atom (e.g. He) – solid surface system changes abruptly near the classical turning point the classical trajectories are washed out. This fact supports the application of an appropriate quantum mechanical model. The probe particles of larger mas ...
the PDF - JILA Science - University of Colorado Boulder
... for lattice sites containing exactly one Rb atom and one K atom (11). In addition, previous measurements of inelastic collisional loss rates for Feshbach molecules with K or Rb atoms (8, 34) suggest that having an extra atom on a lattice site will be detrimental to molecule production at that site. ...
... for lattice sites containing exactly one Rb atom and one K atom (11). In addition, previous measurements of inelastic collisional loss rates for Feshbach molecules with K or Rb atoms (8, 34) suggest that having an extra atom on a lattice site will be detrimental to molecule production at that site. ...
Electron - CoolHub
... about a different atom. The periodic table shows all the atoms that everything in the known universe is made from. It’s kind of like the alphabet in which only 26 letters, in different combinations, make up many thousands of words. The 100 or so atoms of the periodic table, in different combinations ...
... about a different atom. The periodic table shows all the atoms that everything in the known universe is made from. It’s kind of like the alphabet in which only 26 letters, in different combinations, make up many thousands of words. The 100 or so atoms of the periodic table, in different combinations ...
High-Temperature Superconductors: Playgrounds for Broken
... The modern Webster‘s dictionary defines superconductivity as “an electronic state of matter characterized by a) zero resistance, b) perfect diamagnetism, and c) long-range quantum mechanical order,” the last term being defined as “phase-coherence or broken-gauge symmetry.” The superconducting state ...
... The modern Webster‘s dictionary defines superconductivity as “an electronic state of matter characterized by a) zero resistance, b) perfect diamagnetism, and c) long-range quantum mechanical order,” the last term being defined as “phase-coherence or broken-gauge symmetry.” The superconducting state ...
Novel Topologies in Vanadium-bis-β
... O···C dist., 3.12(2) Å and V–O–C ang., 173.5(5)°) is shorter than 3.2 Å, considered the value of the sum of Van der Waals radii, thus contributing to link molecules into chains within the lattice. In addition, the molecules are further organized in the solid as two-dimensional sheets via π···π stack ...
... O···C dist., 3.12(2) Å and V–O–C ang., 173.5(5)°) is shorter than 3.2 Å, considered the value of the sum of Van der Waals radii, thus contributing to link molecules into chains within the lattice. In addition, the molecules are further organized in the solid as two-dimensional sheets via π···π stack ...
Reply to criticism of the ‘Orch OR qubit’ – ‘Orchestrated... reduction’ is scientifically justified
... force electric dipoles” have been discussed in previous publications but the other two options have been introduced for the first time. H&P True. London force ‘electric dipoles’ remain the primary description for mediating quantum states in tubulin and microtubules, with magnetic dipoles (electron s ...
... force electric dipoles” have been discussed in previous publications but the other two options have been introduced for the first time. H&P True. London force ‘electric dipoles’ remain the primary description for mediating quantum states in tubulin and microtubules, with magnetic dipoles (electron s ...
Phase transition of Light - Universiteit van Amsterdam
... In the cavity the lightwave has a standing wave solution, therefore only a single photon mode is allowed. The setup in the cavity enhances the interaction between the electromagnetic field and the atom. When the atom-field interaction becomes significant, strong correlated effects can occur. In this ...
... In the cavity the lightwave has a standing wave solution, therefore only a single photon mode is allowed. The setup in the cavity enhances the interaction between the electromagnetic field and the atom. When the atom-field interaction becomes significant, strong correlated effects can occur. In this ...
m NV Centers in Quantum Information Technology ! De-Coherence Protection &
... Supplementary Information). The overlaid sketch shows the substitutional 40 few-spin sysnt control over ...
... Supplementary Information). The overlaid sketch shows the substitutional 40 few-spin sysnt control over ...
Quantum many-particle electron transport in time-dependent systems with Bohmian trajectories by Alfonso Alarc´
... Schematic representation of the I-V curve of a typical RTD. The resonant energy inside the quantum well acts like an energetic filter that lets the electrons from the source to arrive at the drain. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RTD Current-voltage characte ...
... Schematic representation of the I-V curve of a typical RTD. The resonant energy inside the quantum well acts like an energetic filter that lets the electrons from the source to arrive at the drain. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RTD Current-voltage characte ...
Magnetic polyoxometalates: from molecular magnetism to molecular spintronics and quantum computingw
... and tetramers, have been widely studied as model systems for the development of magnetic exchange theories.18 A relevant case that illustrates the possibilities offered by POM chemistry to conduct detailed studies on magnetic exchange interactions is provided by the cobalt(II) clusters. This d7 ion, ...
... and tetramers, have been widely studied as model systems for the development of magnetic exchange theories.18 A relevant case that illustrates the possibilities offered by POM chemistry to conduct detailed studies on magnetic exchange interactions is provided by the cobalt(II) clusters. This d7 ion, ...
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).