AcuityXR Technology Significantly Enhances Lateral Resolution of
... measurement, enough resolution is gained to reveal the full separation between the lines, whereas for the PSI image they are blurred enough that the surface height between the lines is not the same as the rest of the substrate. Also, fine details of the linewidth variation along the line are visible ...
... measurement, enough resolution is gained to reveal the full separation between the lines, whereas for the PSI image they are blurred enough that the surface height between the lines is not the same as the rest of the substrate. Also, fine details of the linewidth variation along the line are visible ...
Measurement and data processing and analysis
... significant figures of the measurement. There are two significant figures, for example, in 62 cm3 and five in 100.00 g. The zeros are significant here as they signify that the uncertainty range is (±) 0.01 g. The number of significant figures may not always be clear. If a time measurement is 1000 s, ...
... significant figures of the measurement. There are two significant figures, for example, in 62 cm3 and five in 100.00 g. The zeros are significant here as they signify that the uncertainty range is (±) 0.01 g. The number of significant figures may not always be clear. If a time measurement is 1000 s, ...
Improved Transparency-Nonlinearity Trade-Off with Boroxine
... As can be seen on Figure 6, the molecules B1-B3 show an intense absorption band in the UV region but maintain full transparency in the near UV-visible region (λcut-off ≤ 325 nm). Compared to TIATB octupolar derivatives, the absorption is blue-shifted by about 100 nm. A crude estimate of the maximum ...
... As can be seen on Figure 6, the molecules B1-B3 show an intense absorption band in the UV region but maintain full transparency in the near UV-visible region (λcut-off ≤ 325 nm). Compared to TIATB octupolar derivatives, the absorption is blue-shifted by about 100 nm. A crude estimate of the maximum ...
Conference title, upper and lower case, bolded, 18 point type
... same objective, while the transmitted light was collected by an achromatic doublet lens (f = 30mm, N.A. = 0.39). The collected light was focused into multimode fibers connected to the spectrometer for analyzing both the reflectance Rexp(ω) and transmittance Texp(ω) spectra. The experimental absorpta ...
... same objective, while the transmitted light was collected by an achromatic doublet lens (f = 30mm, N.A. = 0.39). The collected light was focused into multimode fibers connected to the spectrometer for analyzing both the reflectance Rexp(ω) and transmittance Texp(ω) spectra. The experimental absorpta ...
Overview of Surface Plasmon Resonance
... analyte (A0) is transported to the interaction surface by convection and diffusion where its concentration (A) may change due to complex formation. This change in concentration is minimized by ensuring a high mass transport coefficient (km) hence the use of nL scale flow cells. Immobilizing a low co ...
... analyte (A0) is transported to the interaction surface by convection and diffusion where its concentration (A) may change due to complex formation. This change in concentration is minimized by ensuring a high mass transport coefficient (km) hence the use of nL scale flow cells. Immobilizing a low co ...
Visible light optical coherence correlation spectroscopy
... Figure 1 depicts the OCCS instrument which is based on a Mach-Zehnder interferometer [6, 18–21]. This visible light OCCS instrument is based on low coherence interferometric principles as described in [6]. The light from a super-continuum source (Koheras SuperK Extreme, NKT Photonics) is spectrally ...
... Figure 1 depicts the OCCS instrument which is based on a Mach-Zehnder interferometer [6, 18–21]. This visible light OCCS instrument is based on low coherence interferometric principles as described in [6]. The light from a super-continuum source (Koheras SuperK Extreme, NKT Photonics) is spectrally ...
Role of Color Interference on the Insect`s Cuticle Coloration
... and wings. “Light” by definition involves wavelengths within the visible part of the electromagnetic spectrum. For humans it consists of wavelengths ranging from approximately 400 nm (violet) to approximately 725 nm (red). Many organisms, including insects, extend this range into the near ultraviole ...
... and wings. “Light” by definition involves wavelengths within the visible part of the electromagnetic spectrum. For humans it consists of wavelengths ranging from approximately 400 nm (violet) to approximately 725 nm (red). Many organisms, including insects, extend this range into the near ultraviole ...
Controllable optical negative refraction and
... through a perturbative medium12 . Realization of phase conjugation is based on degenerate four-wave mixing, in which two counterpropagating beams are used to write a holographic grating into a nonlinear crystal, while a third beam is diffracted in a direction exactly opposite to the incident wave. T ...
... through a perturbative medium12 . Realization of phase conjugation is based on degenerate four-wave mixing, in which two counterpropagating beams are used to write a holographic grating into a nonlinear crystal, while a third beam is diffracted in a direction exactly opposite to the incident wave. T ...
Simultaneous slow and fast light effects using in atomic vapor
... Controllable anomalous dispersion has applications in enhancing the sensitivity of a gyroscope [11-13] and in constructing a white light cavity for broadband gravitational wave detection. [14-17]. Here we present a new technique for producing anomalous dispersion, which is better suited than the Ram ...
... Controllable anomalous dispersion has applications in enhancing the sensitivity of a gyroscope [11-13] and in constructing a white light cavity for broadband gravitational wave detection. [14-17]. Here we present a new technique for producing anomalous dispersion, which is better suited than the Ram ...
Acceleration of ultracold atoms: towards a measurement of
... leading to an accurate determination of the fine structure constant α. It consists in measuring the momentum transferred to an atom by a Raman transition involving only one hyperfine level, the measurement accuracy being then proportional to the number of transitions. Two different geometries can be ...
... leading to an accurate determination of the fine structure constant α. It consists in measuring the momentum transferred to an atom by a Raman transition involving only one hyperfine level, the measurement accuracy being then proportional to the number of transitions. Two different geometries can be ...
