Small-angle scatter measurement.

Wein, Steven Jay.

January 1989

The design, analysis, and performance of a small-angle scatterometer are presented. The effects of the diffraction background, geometrical aberrations and system scatter at the small-angles are separated. Graphs are provided that quantify their contribution. The far-field irradiance distributions of weakly truncated and untruncated Gaussian beams are compared. The envelope of diffraction ringing is shown to decrease proportionately with the level of truncation in the pupil. Spherical aberration and defocus are shown to have little effect on the higher-order diffraction rings of Gaussian apertures and as such will have a negligible effect on most scatter measurements. A method is presented for determining the scattered irradiance level for a given BRDF in relation to the peak irradiance of the point spread function. A method of Gaussian apodization is presented and tested that allows the level of diffraction ringing to become a design parameter. Upon sufficient reduction of the diffraction background, the scattered light from the scatterometers' primary mirror is seen to be the limiting component of the small-angle instrument profile. The scatterometer described was able to make a meaningful measurement close enough to the specular direction at 0.6328μm in order to observe the characteristic height and width of the scatter function. This allowed the rms roughness and autocorrelation length of the surface to be determined from the scatter data at this wavelength. The inferred rms roughness agreed well with an independent optical profilometer measurement of the surface. The BRDF of the samples were also measured at 10.6μm. The rms roughness inferred from this scatter data did not agree with the other measurements. The BRDF did not scale in accordance with the scaler diffraction theory of microrough surfaces. The scattering in the visible was dominated by the effects of surface roughness whereas the scattering in the far-infrared was apparently dominated by the effects of contaminants and surface defects. The model for the surface statistics is investigated. A K₀ (modified Bessel function) autocorrelation function is shown to predict the scattered light distribution of these samples much better than the conventional negative-exponential function. Additionally, a sampling theory is developed that addresses the negative-exponentially correlated output of lock-in amplifiers, detectors, and electronic circuits in general. It is shown that the optimum sampling rate is approximately one sample per time constant and at this rate the improvement in SNR is √(N/2) where N is the number of measurements.

Small-angle scattering -- Measurement.

Aerodynamic drag of ridge arrays in adverse pressure gradients

Abd Rabbo, M. F.

January 1976

Drag measurements for excrescence arrays of square section mounted on a smooth wall and subjected to two adverse pressure gradients in equilibrium are obtained. Differences in drag which arise when the excrescences are uniformly distributed and when tending to isolation are shown. Flow visualization photographs using the surface oil flow technique are presented to illustrate different flow patterns around arrays of varying spacing. A prediction model for the drag of excrescence arrays based on the results obtained was devised. Its range of application could be extended to excrescences of varying shape providing they are sufficiently small to be immersed in the logarithmic part of the boundary layer. Drag results are determined by both a momentum defect and a pressure distribution technique. These results are compared and the difference between them is partially attributed to the change in surface friction between the excrescences and partially to some lack of two-dimensionality in the test procedure. Corrections for the latter effect are made to the data obtained.

629.1323

Aerodynamic drag measurement

Optimising uncertainty from sampling and analysis of foods and environmental samples

Lyn, Jennifer A.

January 2003

No description available.

363

Measurement uncertainty

DIGITAL SIGNAL PROCESSING METHODS FOR ESTIMATING SOLAR RADIOMETER ZERO AIRMASS INTERCEPT PARAMETERS

Scott-Fleming, Ian Crerar, 1955-

January 1987

No description available.

Solar radiation -- Measurement.

RADAR BACKSCATTER MEASUREMENT ACCURACY FOR SPACEBORNE SCANNING PENCIL-BEAM SCATTEROMETERS

Long, David G.

11 1900

International Telemetering Conference Proceedings / October 30-November 02, 1995 / Riviera Hotel, Las Vegas, Nevada / A radar scatterometer transmits a series of RF pulses and measures the total-power (energy) of the backscattered signal. Measurements of the backscattered energy from the ocean's surface can be used to infer the near-surface wind vector [7]. Accurate backscatter energy measurements are required to insure accurate wind estimates. Unfortunately, the signal measurement is noisy so a separate measurement of the noise-only total-power is subtracted from the signal measurement to estimate the echo signal energy. A common metric for evaluating the accuracy of the scatterometer energy measurement is the normalized signal variance, termed K(p). In designing a scatterometer tradeoffs in design parameters are made to minimize K(p). Spaceborne scatterometers have traditionally been based on fan-beam antennas and CW modulation for which expressions for K(p) exist. Advanced pencil-beam scatterometers, such as SeaWinds currently being developed by NASA use modulated Signals so that new K(p) expressions are required. This paper outlines the derivation of the generalized K(p) expression. While very complicated in its exact form, with a simplified geometry the K(p) expression can be related to the radar ambiguity function. The resulting analysis yields insights into the tradeoffs inherent in a scatterometer design and permits analytic tradeoffs in system performance.

Scatterometry

Measurement Accuracy

SeaWinds

ABSOLUTE CALIBRATION OF, AND ATMOSPHERIC MEASUREMENTS USING, A MULTIBAND FIELD RADIOMETER (RADIOMETRY).

Phillips, Amy Louise.

January 1985

No description available.

Radiometers.

Solar radiation -- Measurement.

The 'equatorial anomaly' in electron content at sunspot minimum and sunspot maximum within the Asian region

馬鴻健, Ma, Hung-kin, John.

January 1976

published_or_final_version / Physics / Doctoral / Doctor of Philosophy

Determination of the absolute intensities of cosmic-ray muons at sea level

劉愼言, Lau, Shun-yin.

January 1973

published_or_final_version / Physics / Master / Master of Philosophy

Cosmic rays - Measurement.

Three-dimensional cephalometry of Chinese faces

Chan, Yin-man, 陳彥民

January 2009

published_or_final_version / Dental Surgery / Master / Master of Dental Surgery

Cephalometry.

Face - Measurement.

Characterization of superconducting properties using internal frictionmeasurement

牛鍾明, Liu, Zhong-ming.

January 1994

published_or_final_version / Physics / Doctoral / Doctor of Philosophy

Superconductivity.

Internal friction - Measurement.