Top downloaded Optics Express article for March.
... View Top Downloads from March 2012 Stay current on the latest research by reviewing the most downloaded articles in OSA’s Optics Express in March. Optics Express is an open-access journal so the articles below are freely accessible. ...
... View Top Downloads from March 2012 Stay current on the latest research by reviewing the most downloaded articles in OSA’s Optics Express in March. Optics Express is an open-access journal so the articles below are freely accessible. ...
Spoof Surface Plasmon Polariton Modes Propagating Along
... understood by realizing that the subwavelength surface structure is not directly sampled by the wave, and can therefore, be seen as an effective medium surface layer, applying effectively the concept of metamaterials. THz surface waves with stronger localization than expected for Sommerfeld waves ha ...
... understood by realizing that the subwavelength surface structure is not directly sampled by the wave, and can therefore, be seen as an effective medium surface layer, applying effectively the concept of metamaterials. THz surface waves with stronger localization than expected for Sommerfeld waves ha ...
EVPP 550 Waterscape Ecology and Management
... and heat • Solar constant – Rate at which radiation arrives at edge of Earth’s atmosphere – ≈ 2 cal/cm2/min – More than half of this is lost coming through the atmosphere ...
... and heat • Solar constant – Rate at which radiation arrives at edge of Earth’s atmosphere – ≈ 2 cal/cm2/min – More than half of this is lost coming through the atmosphere ...
Fresnel`s Theory of wave propagation
... Figure 2: Huygens' wavelets. Originating along the fronts of (A) circular waves and (B) plane waves, wavelets recombine to produce the propagating wave front. (C) The diffraction of sound around a corner arising from Huygens' wavelets. ...
... Figure 2: Huygens' wavelets. Originating along the fronts of (A) circular waves and (B) plane waves, wavelets recombine to produce the propagating wave front. (C) The diffraction of sound around a corner arising from Huygens' wavelets. ...
Analytical Expression for the Standing Wave Intensity in Photoresist
... well documented for such cases as antireflection coatings and photoresist exposure.1-5 In the former, the standing wave effect is used to reduce reflections from the substrate. In the latter, standing waves are an undesirable side effect of the exposure process. Unlike the antireflection application ...
... well documented for such cases as antireflection coatings and photoresist exposure.1-5 In the former, the standing wave effect is used to reduce reflections from the substrate. In the latter, standing waves are an undesirable side effect of the exposure process. Unlike the antireflection application ...
Resolving the Vergence-Accommodation Conflict in Head Mounted
... changes with per-frame swapping between two different images, thus displaying the images at different depth simultaneously and simulating the light field. The prototype’s depth range spans contiguously from 6.25 cm to infinity. The claimed advantage of the VRD designs is that they can potentially be ...
... changes with per-frame swapping between two different images, thus displaying the images at different depth simultaneously and simulating the light field. The prototype’s depth range spans contiguously from 6.25 cm to infinity. The claimed advantage of the VRD designs is that they can potentially be ...
a spectral performance model for the
... The Mid-Infrared Instrument (MIRI)9 for the JWST is a thermal-infrared imager and spectrometer currently being developed by an international consortium comprising the a consortium of European partners, the European Space Agency, the Jet Propulsion Laboratory, and an international science team. The s ...
... The Mid-Infrared Instrument (MIRI)9 for the JWST is a thermal-infrared imager and spectrometer currently being developed by an international consortium comprising the a consortium of European partners, the European Space Agency, the Jet Propulsion Laboratory, and an international science team. The s ...
Effect of TiO2 on optical properties of glasses in the soda
... optical fiber (<20dB/km) [7], and it is extensively used in highly nonlinear optical glasses (e.g. the TiO2-Nb2O5-Na2O-SiO2 [8]. The low Abbe number at relatively high refractive index (the comparably strong dependence of refractive index on wavelength), has - besides optical ...
... optical fiber (<20dB/km) [7], and it is extensively used in highly nonlinear optical glasses (e.g. the TiO2-Nb2O5-Na2O-SiO2 [8]. The low Abbe number at relatively high refractive index (the comparably strong dependence of refractive index on wavelength), has - besides optical ...
Optical design of reflectionless complex media by
... transformations significantly expands the idea of the transformation optical design of metamaterials to a whole new class of optical devices which are not inherently invisible to an external observer and allow to transfer the electromagnetic field manipulations from the transformation optical medium ...
... transformations significantly expands the idea of the transformation optical design of metamaterials to a whole new class of optical devices which are not inherently invisible to an external observer and allow to transfer the electromagnetic field manipulations from the transformation optical medium ...
Light Scattering
... of the scattered radiation is a superposition of this secondary radiation with the primary beam in the same direction. In a homogeneous medium all scattering intensity which is not parallel to the incident beam (i. e. and 0)is annihilated by destructive interference. In order to observe scatte ...
... of the scattered radiation is a superposition of this secondary radiation with the primary beam in the same direction. In a homogeneous medium all scattering intensity which is not parallel to the incident beam (i. e. and 0)is annihilated by destructive interference. In order to observe scatte ...
Composition law for polarizers
... polarization state is then studied by introducing rotation operators and Lorentz boots operators borrowed from special relativity. Since the SL共2 , C兲 group is homomorphic to the Lorentz group 共see, e.g., 关6,7兴兲, a formal equivalence between the special relativity space and the polarization space ex ...
... polarization state is then studied by introducing rotation operators and Lorentz boots operators borrowed from special relativity. Since the SL共2 , C兲 group is homomorphic to the Lorentz group 共see, e.g., 关6,7兴兲, a formal equivalence between the special relativity space and the polarization space ex ...
96-ws9-reg-temp - School of Physics
... a. The more coils a spring has the easier it is to stretch it. The shorter spring, with only half as many coils, will not stretch as much as the longer spring when the same force is applied to it by hanging a mass on it. b. The spring constant, k, is given by the extension, x, for a given applied f ...
... a. The more coils a spring has the easier it is to stretch it. The shorter spring, with only half as many coils, will not stretch as much as the longer spring when the same force is applied to it by hanging a mass on it. b. The spring constant, k, is given by the extension, x, for a given applied f ...
High optical absorption in graphene
... If we were to freely tune the optical properties of a film with the thickness of a single layer of graphene, the maximum attainable light absorption would be dictated by the contrast of the surrounding media [5]. This general limit for light absorption in ultrathin films may under favorable conditio ...
... If we were to freely tune the optical properties of a film with the thickness of a single layer of graphene, the maximum attainable light absorption would be dictated by the contrast of the surrounding media [5]. This general limit for light absorption in ultrathin films may under favorable conditio ...
Retroreflector
A retroreflector (sometimes called a retroflector or cataphote) is a device or surface that reflects light back to its source with a minimum of scattering. In a retroreflector an electromagnetic wavefront is reflected back along a vector that is parallel to but opposite in direction from the wave's source. The angle of incidence at which the device or surface reflects light in this way is greater than zero, unlike a planar mirror, which does this only if the mirror is exactly perpendicular to the wave front, having a zero angle of incidence.