UW LaTeX Thesis Template - UWSpace
... in the last few years mostly because of sensing and imaging applications. Many important chemical and biological molecules have their vibrational and rotational resonance frequencies in the THz range that makes the THz sensing one of the most important applications of THz technology. Considering abo ...
... in the last few years mostly because of sensing and imaging applications. Many important chemical and biological molecules have their vibrational and rotational resonance frequencies in the THz range that makes the THz sensing one of the most important applications of THz technology. Considering abo ...
The concept of modes in optics and photonics
... quantum mechanics. In optics and photonics, the concept of modes is well suited to describe emission and absorption, coherence and interference, propagation and dispersion. The concept of modes consists of two aspects: first, the modes are solutions for the propagation of the light; second, the numb ...
... quantum mechanics. In optics and photonics, the concept of modes is well suited to describe emission and absorption, coherence and interference, propagation and dispersion. The concept of modes consists of two aspects: first, the modes are solutions for the propagation of the light; second, the numb ...
optical flow using color information: preliminary
... measures in comparison with methods that only use brightness information. The result in Figure 7 can be compared with the results in Figure 6 to illustrate this improvement. Depending on the chosen color model, it is not necessary to use all channels of a tri-chromatic image. Tests have been made wi ...
... measures in comparison with methods that only use brightness information. The result in Figure 7 can be compared with the results in Figure 6 to illustrate this improvement. Depending on the chosen color model, it is not necessary to use all channels of a tri-chromatic image. Tests have been made wi ...
Multiband perfect absorbers using metal
... dielectric core medium. The incident angle corresponding to the in-plane wavevector kx is determined by kx = (2π/λ)(sinθ), where λ represents the peak wavelength. The first order modes (m = 1) for each polarization have the identical energy (2.36 eV) at kx = 0 (normal incidence). As kx increases, ho ...
... dielectric core medium. The incident angle corresponding to the in-plane wavevector kx is determined by kx = (2π/λ)(sinθ), where λ represents the peak wavelength. The first order modes (m = 1) for each polarization have the identical energy (2.36 eV) at kx = 0 (normal incidence). As kx increases, ho ...
Wave Optics Theory and 3-D Deconvolution for the Light Field
... Computer vision researchers know that multiple aliased, low-resolution images of a scene can be computationally combined to recover a higher resolution image [3]. Early incarnations of this computational super-resolution involved capturing several images while a camera sensor was translated through ...
... Computer vision researchers know that multiple aliased, low-resolution images of a scene can be computationally combined to recover a higher resolution image [3]. Early incarnations of this computational super-resolution involved capturing several images while a camera sensor was translated through ...
Overview of Stimulated Brillouin Scattering Effect
... Jaworski et al. (2001) has shown that threshold power can be increased using two methods. One method is optical phase modulation (dithering) and another is initial pulse modulation and spectrum scattering by propagating in double-clad fiber. By applying these methods optical signal spectrum is widen ...
... Jaworski et al. (2001) has shown that threshold power can be increased using two methods. One method is optical phase modulation (dithering) and another is initial pulse modulation and spectrum scattering by propagating in double-clad fiber. By applying these methods optical signal spectrum is widen ...
The Impact of Computers on the Design and Manufacture of Optical
... field. However, the solution asked for the use of non-quarter wave layers. This work was followed by further developments in numerical design as well as in more sophisticated monitoring procedures, also based on the use of computers. Since that time, progress in numerical methods, deposition techniq ...
... field. However, the solution asked for the use of non-quarter wave layers. This work was followed by further developments in numerical design as well as in more sophisticated monitoring procedures, also based on the use of computers. Since that time, progress in numerical methods, deposition techniq ...
Quadriwave lateral shearing interferometry
... could be directly measured by the WFS, allowing quantitative phase-shift imaging where the WFS resolution and the measurement point number now become a key element that currently excludes the use of Shack-Hartmann sensors, that give limited resolution. Digital wavefront sensing (DWFS) has been propo ...
... could be directly measured by the WFS, allowing quantitative phase-shift imaging where the WFS resolution and the measurement point number now become a key element that currently excludes the use of Shack-Hartmann sensors, that give limited resolution. Digital wavefront sensing (DWFS) has been propo ...
Experimental demonstration of near-infrared
... coated waveguides at the cutoff frequency [17, 21], arrays of silver or gold nanowires grown in porous alumina templates [22, 23], and metal-dielectric multilayer structures [24–26]. Multilayer metamaterials have been explored to realize extraordinary optical functionalities such as negative refract ...
... coated waveguides at the cutoff frequency [17, 21], arrays of silver or gold nanowires grown in porous alumina templates [22, 23], and metal-dielectric multilayer structures [24–26]. Multilayer metamaterials have been explored to realize extraordinary optical functionalities such as negative refract ...
Using the Spectrophotometer
... • basic operation of the spectrophotometer. • making dilutions. Underlying Science Basic principles of spectrophotometry An absorbance spectrophotometer is an instrument that measures the fraction of the incident light transmitted through a solution. In other words it they are used to measure the am ...
... • basic operation of the spectrophotometer. • making dilutions. Underlying Science Basic principles of spectrophotometry An absorbance spectrophotometer is an instrument that measures the fraction of the incident light transmitted through a solution. In other words it they are used to measure the am ...
Full Text PDF
... mixtures have been done from DMSO and pure water with different percentages P. The refractive index of those different mixtures has been measured at different temperatures. Each sample investigated was contained within a rectangular-quartz cell located in one of MZI's arms. The light source of the i ...
... mixtures have been done from DMSO and pure water with different percentages P. The refractive index of those different mixtures has been measured at different temperatures. Each sample investigated was contained within a rectangular-quartz cell located in one of MZI's arms. The light source of the i ...
A light scattering study of non equilibrium fluctuations
... In this article, we introduce dynamic near field scattering as a powerful tool to study NEFs. Near field scattering (NFS) has been introduced in the late 1990’s as an alternative to conventional static and dynamic light scattering.23–26 In a NFS experiment, one typically observes the heterodyne cont ...
... In this article, we introduce dynamic near field scattering as a powerful tool to study NEFs. Near field scattering (NFS) has been introduced in the late 1990’s as an alternative to conventional static and dynamic light scattering.23–26 In a NFS experiment, one typically observes the heterodyne cont ...
