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... behavior may not hold when other considerations, such as SPAD jitter, are taken into account. As the generating PDF deviates from a single exponential and as other effects, such as SPAD jitter, are included, the PDFs of the order statistics also deviate further and further from the Rènyi representat ...
... behavior may not hold when other considerations, such as SPAD jitter, are taken into account. As the generating PDF deviates from a single exponential and as other effects, such as SPAD jitter, are included, the PDFs of the order statistics also deviate further and further from the Rènyi representat ...
Thesis Manuscript - Materials Physics Center
... a collective resonance of conduction electrons which depends on geometrical and compositional factors as well as on the frequency and polarisation properties of the incident light. For large systems of tens of nanometers in size and above, this response is well understood, and can be confidently des ...
... a collective resonance of conduction electrons which depends on geometrical and compositional factors as well as on the frequency and polarisation properties of the incident light. For large systems of tens of nanometers in size and above, this response is well understood, and can be confidently des ...
Journal of Nonlinear Optical - Research School of Physics and
... phenomenon for optically-induced lattices, but can be applied to other types of periodic structures with electro-optic tunability. In particular, various possibilities for beam control were demonstrated in liquid-crystal cells with periodical modulation induced by an array of electrodes.40 – 45 The ...
... phenomenon for optically-induced lattices, but can be applied to other types of periodic structures with electro-optic tunability. In particular, various possibilities for beam control were demonstrated in liquid-crystal cells with periodical modulation induced by an array of electrodes.40 – 45 The ...
Raman spectroscopy of graphite - Institut für Festkörperphysik
... particular phonon wave vector and hence phonon frequency. We first present a textbook example of double-resonant Raman scattering before we turn more specifically to the situation in graphite. (a) Linear bands Consider two linear electronic bands that cross at the Fermi energy as shown in figure 5. For ...
... particular phonon wave vector and hence phonon frequency. We first present a textbook example of double-resonant Raman scattering before we turn more specifically to the situation in graphite. (a) Linear bands Consider two linear electronic bands that cross at the Fermi energy as shown in figure 5. For ...
plasmonics: fundamentals and applications
... that?" Well, would you have predicted that just by imposing appropriate structure on a metal one could make a synthetic material that would turn Snell’s law ...
... that?" Well, would you have predicted that just by imposing appropriate structure on a metal one could make a synthetic material that would turn Snell’s law ...
Plasmonics: Fundamentals and Applications
... that?" Well, would you have predicted that just by imposing appropriate structure on a metal one could make a synthetic material that would turn Snell’s law ...
... that?" Well, would you have predicted that just by imposing appropriate structure on a metal one could make a synthetic material that would turn Snell’s law ...
PLASMONICS: FUNDAMENTALS AND APPLICATIONS
... that?" Well, would you have predicted that just by imposing appropriate structure on a metal one could make a synthetic material that would turn Snell’s law ...
... that?" Well, would you have predicted that just by imposing appropriate structure on a metal one could make a synthetic material that would turn Snell’s law ...
PHOTON STATISTICS IN SCINTILLATION CRYSTALS
... Optical photons at higher angles have a larger effective photocathode thickness, and any optical photons reflected at one detector can be absorbed at the second detector. . . . . . . . . . . . . . . . . . . . . . ...
... Optical photons at higher angles have a larger effective photocathode thickness, and any optical photons reflected at one detector can be absorbed at the second detector. . . . . . . . . . . . . . . . . . . . . . ...
24_(582-588)(완료)E14120 ed-Jin-Kyu Yang.hwp
... how the dipole emitter is close to the LSP mode, spatially and spectrally. We also calculated the absorption and resonance behaviors at Ag/SiO2 CS NPs in both the TM-polarized dipole and the TE-polarized dipole. Figure 3(a) shows the absorption spectra when the radius of Ag is 15 nm. The absorption ...
... how the dipole emitter is close to the LSP mode, spatially and spectrally. We also calculated the absorption and resonance behaviors at Ag/SiO2 CS NPs in both the TM-polarized dipole and the TE-polarized dipole. Figure 3(a) shows the absorption spectra when the radius of Ag is 15 nm. The absorption ...
Ultrafast Internal Conversion of Aromatic Molecules Studied
... The quantum mechanical equation of motions of the nuclei and electrons is not exactly solvable, so Born and Oppenheimer approximated the rigorous equation by separating it into the sets of equations of the nuclei and the electrons [1]. Based on the Born-Oppenheimer approximation, a chemical reaction ...
... The quantum mechanical equation of motions of the nuclei and electrons is not exactly solvable, so Born and Oppenheimer approximated the rigorous equation by separating it into the sets of equations of the nuclei and the electrons [1]. Based on the Born-Oppenheimer approximation, a chemical reaction ...
PPT - Institute of Physics, Bhubaneswar
... Increasing the length doesn‘t help due to strong absorption in the medium Electromagnetically Induced Transparency (EIT) provides a larger 3rd order non-linearity without absorption. ...
... Increasing the length doesn‘t help due to strong absorption in the medium Electromagnetically Induced Transparency (EIT) provides a larger 3rd order non-linearity without absorption. ...
Geometrical-optics code for computing the optical
... near-infrared part of the solar spectrum cannot be neglected when radiative properties of snow are computed. Thus a new, to our knowledge, geometrical-optics code is developed to compute scattering and absorption cross sections of large dielectric particles of arbitrary complex refractive index. The ...
... near-infrared part of the solar spectrum cannot be neglected when radiative properties of snow are computed. Thus a new, to our knowledge, geometrical-optics code is developed to compute scattering and absorption cross sections of large dielectric particles of arbitrary complex refractive index. The ...
QUANTITIES, TERMINOLOGY, AND SYMBOLS IN
... The interaction of electromagnetic radiation with matter causes absorption, emission, and scattering of radiation. Except for emission and scattering, the absorbed electromagnetic energy is converted to heat by various nonradiative processes and induces changes in temperature, pressure, and refracti ...
... The interaction of electromagnetic radiation with matter causes absorption, emission, and scattering of radiation. Except for emission and scattering, the absorbed electromagnetic energy is converted to heat by various nonradiative processes and induces changes in temperature, pressure, and refracti ...
S U P E R -R E S O LV... Scientific Background on the Nobel Prize in Chemistry 2014
... (Gustafsson, 2005). These methods can be used when the fluorescing regions contain ensembles of fluorophores as well as single fluorophores and are therefore generically referred to as “Super-resolved ensemble fluorophore microscopy”. Their common denominator is that saturation of the excitation pea ...
... (Gustafsson, 2005). These methods can be used when the fluorescing regions contain ensembles of fluorophores as well as single fluorophores and are therefore generically referred to as “Super-resolved ensemble fluorophore microscopy”. Their common denominator is that saturation of the excitation pea ...
super-resolved fluorescence microscopy
... (Gustafsson, 2005). These methods can be used when the fluorescing regions contain ensembles of fluorophores as well as single fluorophores and are therefore generically referred to as “Super-resolved ensemble fluorophore microscopy”. Their common denominator is that saturation of the excitation pea ...
... (Gustafsson, 2005). These methods can be used when the fluorescing regions contain ensembles of fluorophores as well as single fluorophores and are therefore generically referred to as “Super-resolved ensemble fluorophore microscopy”. Their common denominator is that saturation of the excitation pea ...
Quantum Gas Microscope With Optical Lattice
... optical lattice system over the traditional model system for studying condensed matter that of real solids. In essence, atoms tunneling in the optical lattice is entirely analogous to electrons tunneling within the periodic potential due to the nuclei of a crystalline material [63]. Indeed, many of ...
... optical lattice system over the traditional model system for studying condensed matter that of real solids. In essence, atoms tunneling in the optical lattice is entirely analogous to electrons tunneling within the periodic potential due to the nuclei of a crystalline material [63]. Indeed, many of ...
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... are better donors than less polar substituents such as alcohols. As the lanthanide-ligand coordination is predominantly ionic in nature, negatively charged donor groups such as carboxylates, phosphonates and phosphinates are highly suitable. ...
... are better donors than less polar substituents such as alcohols. As the lanthanide-ligand coordination is predominantly ionic in nature, negatively charged donor groups such as carboxylates, phosphonates and phosphinates are highly suitable. ...
Monte Carlo simulation of light scattering in the atmosphere and
... standard atmospheric model is used to fix typical values for molecular component: Λ0mol = 14.2 km and ...
... standard atmospheric model is used to fix typical values for molecular component: Λ0mol = 14.2 km and ...
IOSR Journal of Applied Physics (IOSR-JAP)
... Conducting polymers have recently become an area of wide-spread interest in organic electronics due to their potential application in energy conversion systems such as photovoltaic cells, solar cells, bio sensors etc [1-3]. In view of this, a great deal of interest has been paid to the mechanical, o ...
... Conducting polymers have recently become an area of wide-spread interest in organic electronics due to their potential application in energy conversion systems such as photovoltaic cells, solar cells, bio sensors etc [1-3]. In view of this, a great deal of interest has been paid to the mechanical, o ...
High optical absorption in graphene
... realize these optimal conditions is to exploit plasmon resonances in nanostructures where metallic elements and other materials adding functionality are combined into nanocomposites. By tuning the geometrical properties and thereby the effective dielectric function of the nanocomposite structure in ...
... realize these optimal conditions is to exploit plasmon resonances in nanostructures where metallic elements and other materials adding functionality are combined into nanocomposites. By tuning the geometrical properties and thereby the effective dielectric function of the nanocomposite structure in ...
Metal Nanoparticles for Microscopy and Spectroscopy
... the GHz range of current electronics. However, the free electrons intrinsically have a finite response time, above which they will not be fast enough to shield the bulk metal from incident fields. For typical metals the inverse of this response time, which is known as the ‘plasma frequency’, is around ...
... the GHz range of current electronics. However, the free electrons intrinsically have a finite response time, above which they will not be fast enough to shield the bulk metal from incident fields. For typical metals the inverse of this response time, which is known as the ‘plasma frequency’, is around ...
A study on optical absorption and constants of doped poly(ethylene
... Polymer composites and polymer electrolytes are the most widely used materials in the past few decades. Understanding their properties is extremely important not only for scientific knowledge but also for modern and advanced technological applications. Most polymeric materials are poor conductors of ...
... Polymer composites and polymer electrolytes are the most widely used materials in the past few decades. Understanding their properties is extremely important not only for scientific knowledge but also for modern and advanced technological applications. Most polymeric materials are poor conductors of ...
Quantum cascade transitions in nanostructures
... great interest because of their spectrally sharp energy levels and other ‘atomic’ properties. We explain how these dots are made and the physics that emerge from application of an external magnetic field. We also present a brief list of the application potentials of QDs. Section 6 describes the theor ...
... great interest because of their spectrally sharp energy levels and other ‘atomic’ properties. We explain how these dots are made and the physics that emerge from application of an external magnetic field. We also present a brief list of the application potentials of QDs. Section 6 describes the theor ...
Optical Methods for Tympanic Membrane Characterisation Towards Objective Otoscopy in Otitis Media
... Otitis media, which is an upper respiratory tract infection that affect the middle ear, is the second most common disease in childhood, outnumbered in prevalence only by the common cold. Diagnosis of middle ear inflammation is often performed in the primary healthcare where the normal procedure invo ...
... Otitis media, which is an upper respiratory tract infection that affect the middle ear, is the second most common disease in childhood, outnumbered in prevalence only by the common cold. Diagnosis of middle ear inflammation is often performed in the primary healthcare where the normal procedure invo ...
Theory of Excitation Energy Transfer in Pigment - diss.fu
... combined approach by high-resolution structure determination, optical spectroscopy and theory is necessary to understand the building principles of photosynthetic systems and how function and structure of these nano-machines are related. This progress was initiated by the first high-resolution X-ray ...
... combined approach by high-resolution structure determination, optical spectroscopy and theory is necessary to understand the building principles of photosynthetic systems and how function and structure of these nano-machines are related. This progress was initiated by the first high-resolution X-ray ...