Interpretation Neutrality in the Classical Domain of Quantum Theory
... well as processes in which collapse of the quantum state is merely effective or apparent. ...
... well as processes in which collapse of the quantum state is merely effective or apparent. ...
Condensed Matter Physics as a Laboratory for Gravitation and
... and in Cosmology, are formed during symmetry breaking phase transitions[1]. The analogy is so strong that, in the past few years, some \cosmological experiments" have been carried out in liquid crystals[2] and super uid Helium[3], shading a new light on the dynamics of the defect formation process. ...
... and in Cosmology, are formed during symmetry breaking phase transitions[1]. The analogy is so strong that, in the past few years, some \cosmological experiments" have been carried out in liquid crystals[2] and super uid Helium[3], shading a new light on the dynamics of the defect formation process. ...
- Philsci-Archive
... What I am doing is using history as a guide to a tentative clarification of some unclear aspects of the theory. Since I am not taking into account more recent contributions, a work that goes back to the early fifties of last century and before might seem dated. Here I must distinguish between the a ...
... What I am doing is using history as a guide to a tentative clarification of some unclear aspects of the theory. Since I am not taking into account more recent contributions, a work that goes back to the early fifties of last century and before might seem dated. Here I must distinguish between the a ...
Consistent thermostatistics forbids negative absolute temperatures
... ultracold bosonic quantum gas7 with a bounded spectrum has attracted considerable attention10 as another apparent example system with T < 0, encouraging speculation that cold-atom gases could serve as laboratory dark-energy analogues. Here, we show that claims of negative absolute temperature in spi ...
... ultracold bosonic quantum gas7 with a bounded spectrum has attracted considerable attention10 as another apparent example system with T < 0, encouraging speculation that cold-atom gases could serve as laboratory dark-energy analogues. Here, we show that claims of negative absolute temperature in spi ...
Model for ultrashort laser pulse-induced ionization dynamics in
... detailed model of one process and a simplified model of the other. Such approaches therefore contain many inconsistencies and oversimplifications [6]. For most pulse propagation simulations in solids, the chosen models of photoionization and laser-plasma interactions were derived in the decades prec ...
... detailed model of one process and a simplified model of the other. Such approaches therefore contain many inconsistencies and oversimplifications [6]. For most pulse propagation simulations in solids, the chosen models of photoionization and laser-plasma interactions were derived in the decades prec ...
Atoms, Entropy, Quanta - Philsci-Archive
... statistical physics that extends back at least to his early papers of 1901 and 1902. That program is dominated by the same question that governs the light quantum paper: how are the microscopic properties of matter manifested in their macroscopic thermodynamics properties, and, especially, how is th ...
... statistical physics that extends back at least to his early papers of 1901 and 1902. That program is dominated by the same question that governs the light quantum paper: how are the microscopic properties of matter manifested in their macroscopic thermodynamics properties, and, especially, how is th ...
Nanoelectromechanical systems
... quantum coherent fashion, existing in a quantum superposition of different charge states as electrons are transmitted through the device. Interacting with such a device, the mechanical resonator’s centre-of-mass may be driven into a quantum state [6], such as a superposition of separated position sta ...
... quantum coherent fashion, existing in a quantum superposition of different charge states as electrons are transmitted through the device. Interacting with such a device, the mechanical resonator’s centre-of-mass may be driven into a quantum state [6], such as a superposition of separated position sta ...
A functional quantum programming language
... We can read had as an operation which, depending on its input qubit x, returns one of two superpositions of a qubit. We can also easily calculate that applying had twice gets us back where we started by cancelling out amplitudes. An important feature of quantum programming is the possibility to crea ...
... We can read had as an operation which, depending on its input qubit x, returns one of two superpositions of a qubit. We can also easily calculate that applying had twice gets us back where we started by cancelling out amplitudes. An important feature of quantum programming is the possibility to crea ...
Light, Matter, and the basics - Purdue University Cytometry
... Steradian (sphere radius r has surface area of 4 r2; one steradian is defined as that solid angle which intercepts an area equal to r2 on the surface. Mole - contains Avogadro's number of molecules (6.02 x 1023) and contains a mass in grams = molecular weight. Photons - light particles - waves - Ph ...
... Steradian (sphere radius r has surface area of 4 r2; one steradian is defined as that solid angle which intercepts an area equal to r2 on the surface. Mole - contains Avogadro's number of molecules (6.02 x 1023) and contains a mass in grams = molecular weight. Photons - light particles - waves - Ph ...
Reversible work extraction in a hybrid opto
... thermodynamic sense: in this situation, the adiabatic work Wad received by the TLS is entirely stored in the TLS internal energy, resulting in a transition frequency shift Δν0 = (gm Δx x 0 ) Pe such that Wad = hΔν0. We now provide another operational interpretation of this adiabatic work, based on t ...
... thermodynamic sense: in this situation, the adiabatic work Wad received by the TLS is entirely stored in the TLS internal energy, resulting in a transition frequency shift Δν0 = (gm Δx x 0 ) Pe such that Wad = hΔν0. We now provide another operational interpretation of this adiabatic work, based on t ...
BSc programme in Physics-CUCBCSS UG 2014
... another supervisor has to be appointed. However the existing work load should be maintained. Guidelines for doing project The project work provides the opportunity to study a topic in depth that has been chosen or which has been suggested by a staff member. The students first carryout a literature s ...
... another supervisor has to be appointed. However the existing work load should be maintained. Guidelines for doing project The project work provides the opportunity to study a topic in depth that has been chosen or which has been suggested by a staff member. The students first carryout a literature s ...
Publication : Relativistic Coupled Cluster Calculations with
... (SEVP), and the higher-order QED terms [22]. Our implementation of the MLSO formalism into the Tel Aviv atomic computational package allows us to obtain the VP and SE contributions beyond the usual mean-field level, namely at the DCB-FSCCSD level. The individual QED contributions are presented in Ta ...
... (SEVP), and the higher-order QED terms [22]. Our implementation of the MLSO formalism into the Tel Aviv atomic computational package allows us to obtain the VP and SE contributions beyond the usual mean-field level, namely at the DCB-FSCCSD level. The individual QED contributions are presented in Ta ...
Recurrence spectroscopy of atoms in electric fields: Failure of classical
... simply by varying the electric field range measured in the experiment. Smaller F at fixed e implies higher principal quantum numbers n, while larger F implies lower. We show an example recurrence spectrum where the primitive semiclassical approximation that gives good agreement with quantum calculat ...
... simply by varying the electric field range measured in the experiment. Smaller F at fixed e implies higher principal quantum numbers n, while larger F implies lower. We show an example recurrence spectrum where the primitive semiclassical approximation that gives good agreement with quantum calculat ...
Generation of highly entangled photon pairs for continuous variable
... materials at specific wavelengths. Here we show, however, that through the use of a superlattice the overall GVD coefficient B (see equation (11)) can be made to vanish at arbitrary wavelengths independently of the underlying crystal dispersion, which can result in high dimensional entangled states at ...
... materials at specific wavelengths. Here we show, however, that through the use of a superlattice the overall GVD coefficient B (see equation (11)) can be made to vanish at arbitrary wavelengths independently of the underlying crystal dispersion, which can result in high dimensional entangled states at ...
Fault-Tolerant Quantum Computation
... huge boost to quantum information field: a single qubit cannot survive decoherence, but a set of qubits can; “together we stand, divided we fall” The propagation of the error is prevented by using fault tolerant recovery after storing or processing the information, and by using fault tolerant gate ...
... huge boost to quantum information field: a single qubit cannot survive decoherence, but a set of qubits can; “together we stand, divided we fall” The propagation of the error is prevented by using fault tolerant recovery after storing or processing the information, and by using fault tolerant gate ...
Scattering of electrons from an interacting region
... Above theories are not directly applicable. It is not meaningful to talk of conductivity. Rather one is interested in the conductance: I ...
... Above theories are not directly applicable. It is not meaningful to talk of conductivity. Rather one is interested in the conductance: I ...
The quantum phases of matter - Subir Sachdev
... Bloch’s early theory of electronic motion in metals treated the electrons as largely independent particles moving in the periodic potential created by the crystalline background. The basic principles were the same as in Schrödinger’s theory of atomic structure: the electrons occupy ‘orbitals’ obtai ...
... Bloch’s early theory of electronic motion in metals treated the electrons as largely independent particles moving in the periodic potential created by the crystalline background. The basic principles were the same as in Schrödinger’s theory of atomic structure: the electrons occupy ‘orbitals’ obtai ...
