Plasmon Enhanced Fluorescence (PEF) of High and Low Quantum
... enhance optical signals: Plasmon enhanced fluorescence (PEF). In the literature it has grown with two different names: surface enhanced fluorescence (SEF) and also metal enhanced fluorescence (MEF). In this thesis, we have explored some of the peculiar properties of plasmon enhanced fluorescence. In ...
... enhance optical signals: Plasmon enhanced fluorescence (PEF). In the literature it has grown with two different names: surface enhanced fluorescence (SEF) and also metal enhanced fluorescence (MEF). In this thesis, we have explored some of the peculiar properties of plasmon enhanced fluorescence. In ...
Semiclassical model of stimulated Raman scattering in photonic crystals * Lucia Florescu
... A pump laser field with frequency L, driving the transition between levels 兩1典 and 兩3典, propagates through the medium and is scattered by the resonant atoms to produce photons at the Stokes frequency S = L − 21, where ប21 is the energy of the final state 兩2典 above the ground state 兩1典. There ar ...
... A pump laser field with frequency L, driving the transition between levels 兩1典 and 兩3典, propagates through the medium and is scattered by the resonant atoms to produce photons at the Stokes frequency S = L − 21, where ប21 is the energy of the final state 兩2典 above the ground state 兩1典. There ar ...
acta physica slovaca vol. 50 No. 1, 1 – 198 February 2000
... We present in this work a straightforward, and a “very natural” theoretical extension of traditional (linear) quantum mechanics (QM), providing a general framework of several physical theories. It contains QM itself, its (almost all up to now published) nonlinear modifications and extensions, and al ...
... We present in this work a straightforward, and a “very natural” theoretical extension of traditional (linear) quantum mechanics (QM), providing a general framework of several physical theories. It contains QM itself, its (almost all up to now published) nonlinear modifications and extensions, and al ...
XVIIth International Workshop on Quantum Atomic and Molecular
... of Quantum Atomic and Molecular Tunneling in Solids and other Phases, the previous one having taken place in Santa Fe, New Mexico, USA in 2012 (see also QAMTS history). The tunnel effect has been a crucial quantum phenomenon starting in the early days of quantum mechanics with the theoretical work o ...
... of Quantum Atomic and Molecular Tunneling in Solids and other Phases, the previous one having taken place in Santa Fe, New Mexico, USA in 2012 (see also QAMTS history). The tunnel effect has been a crucial quantum phenomenon starting in the early days of quantum mechanics with the theoretical work o ...
Recent Advances in Development and Applications of the Mixed
... least in collision regimes where the full-quantum approach is not affordable anymore, whereas the purely classical approach is not accurate. Pictorially, our approach can be “positioned” between the purely classical and the full-quantum methods discussed above, because it combines both classical and ...
... least in collision regimes where the full-quantum approach is not affordable anymore, whereas the purely classical approach is not accurate. Pictorially, our approach can be “positioned” between the purely classical and the full-quantum methods discussed above, because it combines both classical and ...
DISCRETE 2016: Fifth Symposium on Prospects in the Physics of
... for allowing successful leptogenesis via CP-violating decays? I show that, for low RH neutrino masses and thanks to thermal effects, leptogenesis turns out to proceed efficiently from the decay of the Standard Model scalar doublet components into a RH neutrino and a lepton. If the RH neutrino has th ...
... for allowing successful leptogenesis via CP-violating decays? I show that, for low RH neutrino masses and thanks to thermal effects, leptogenesis turns out to proceed efficiently from the decay of the Standard Model scalar doublet components into a RH neutrino and a lepton. If the RH neutrino has th ...
Band-edge exciton in quantum dots of semiconductors - X
... long radiative lifetime12 ( t R ;1 m s at 10 K! compared to the bulk exciton recombination time ( t R ;1 ns!. Simple parabolic band theory cannot explain these data in terms of recombination through internal states. Rather, band-edge emission in II-VI quantum dots ~QD’s! was explained as a surface e ...
... long radiative lifetime12 ( t R ;1 m s at 10 K! compared to the bulk exciton recombination time ( t R ;1 ns!. Simple parabolic band theory cannot explain these data in terms of recombination through internal states. Rather, band-edge emission in II-VI quantum dots ~QD’s! was explained as a surface e ...
1. von Neumann Versus Shannon Entropy
... find just one of the states, q i , to which we would then assign an entropy of zero. The density matrix (3.2.5.2) does, however, account for the reduction of the wavepacket ; the irreversible, indeterminate, -process. So whatever physical interactions are involved when the apparatus measures the sys ...
... find just one of the states, q i , to which we would then assign an entropy of zero. The density matrix (3.2.5.2) does, however, account for the reduction of the wavepacket ; the irreversible, indeterminate, -process. So whatever physical interactions are involved when the apparatus measures the sys ...
Microwave Conductivity of Magnetic Field Induced Insulating Phase of Bilayer Hole Systems
... exhibits features which depend sensitively on magnetic field, interlayer separation d, and bilayer densities. We start from the balanced case, in which the two layers have equal carrier densities. Bilayer effects were studied by comparing the spectra of such balanced states to those of single layers ...
... exhibits features which depend sensitively on magnetic field, interlayer separation d, and bilayer densities. We start from the balanced case, in which the two layers have equal carrier densities. Bilayer effects were studied by comparing the spectra of such balanced states to those of single layers ...
Lokal fulltext - Chalmers tekniska högskola
... classical computer information processing occurs through semiconducting materials whos’ highly nonlinear density of states is used to control the flow of charge carriers, bearers of classical information. Similarly, for quantum computation we rely on the most fundamental of electronic structures – a ...
... classical computer information processing occurs through semiconducting materials whos’ highly nonlinear density of states is used to control the flow of charge carriers, bearers of classical information. Similarly, for quantum computation we rely on the most fundamental of electronic structures – a ...
Production of p-wave Feshbach molecules from an ultra
... 1.1 Quantum matter Quantum statistics are an essential tool in our modern understanding of the way the universe works. The restrictions imposed by them help us to understand the structure of matter at the microscopic level and the interactions that take place on that scale. The statistics that are d ...
... 1.1 Quantum matter Quantum statistics are an essential tool in our modern understanding of the way the universe works. The restrictions imposed by them help us to understand the structure of matter at the microscopic level and the interactions that take place on that scale. The statistics that are d ...
PHYSICS Handbook for Graduate Students in Physics 2015–2016
... Herndon, M., Ph.D., Maryland, 1998. Fundamental particle physics involving high energy hadron collisions with the CDF experiment at the Tevatron and the CMS experiment at the LHC. Research topics include rare decay of B hadrons, diboson physics, Higgs physics, and searches for fundamental new partic ...
... Herndon, M., Ph.D., Maryland, 1998. Fundamental particle physics involving high energy hadron collisions with the CDF experiment at the Tevatron and the CMS experiment at the LHC. Research topics include rare decay of B hadrons, diboson physics, Higgs physics, and searches for fundamental new partic ...