Amplification of the mean power of the echo signal of a spatially limited laser beam in a turbulent atmosphere

A stochastic model of the flow cytometer measurement process was developed to assess the nature of the observed coefficient of variation (CV%) of the mean fluorescence intensity (MFI) from a population of labeled microspheres (beads). Several sources of variability were considered: the total number of labels on a bead, the path through the laser beam, the optical absorption cross-section, the quantum yield, the numerical aperture of the collection optics, and the photoelectron conversion efficiency of the photomultiplier (PMT) cathode. The variation in the number of labels on a bead had the largest effect on the CV% of the MFI of the bead population. The variation in the path of the bead through the laser beam was minimized using flat-top lasers. The variability in the average optical properties of the labels was of minor importance for beads with sufficiently large number of labels. The application of the bead results to the measured CV% of labeled B cells indicated that the measured CV% was a reliable measure of the variability of antibodies bound per cell. With some modifications, the model can be extended to multicolor flow cytometers and to the study of CV% from cells with low fluorescence signal.

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Wind profile recovery from intensity fluctuations of a laser beam reflected in a turbulent atmosphere

Quantum Electronics ◽

10.1070/qe2008v038n04abeh013586 ◽

2008 ◽

Vol 38 (4) ◽

pp. 404-408 ◽

Cited By ~ 2

Author(s):

V A Banakh ◽

D A Marakasov

Keyword(s):

Laser Beam ◽

Turbulent Atmosphere ◽

Wind Profile ◽

Intensity Fluctuations

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Expansion of a Focused Laser Beam in the Turbulent Atmosphere

Canadian Journal of Physics ◽

10.1139/p71-148 ◽

1971 ◽

Vol 49 (10) ◽

pp. 1233-1248 ◽

Cited By ~ 5

Author(s):

A. D. Varvatsis ◽

M. I. Sancer

Keyword(s):

Laser Beam ◽

Free Space ◽

Turbulent Atmosphere ◽

Focal Plane ◽

Spot Size ◽

Small Aperture ◽

Forward Scatter ◽

Green’S Theorem ◽

Focused Beams ◽

Weakly Dependent

This work examines the expansion of a focused laser beam in the turbulent atmosphere. The formulation is based on Green's theorem and the valid assumption that the turbulent atmosphere is a forward-scatter medium for wavelengths of interest (0.6 μ < λ < 11 μ). The main results are: (1) the spot size at the free-space focal plane in the presence of turbulence is independent of the aperture radius, and is only weakly dependent on the wavelength, (2) the focal plane can be significantly shifted for small aperture radii, short wavelengths, and long free-space focal lengths, (3) the effect of the atmosphere is pronounced only close to the free-space focus and very far away, and (4) the turbulent atmosphere has a stronger effect on weakly focused beams rather than strongly focused beams, except very close to the free-space focus, where the effect is more pronounced for strongly focused beams.

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The Influence of Training Phase on Error of Measurement in Jump Performance

International Journal of Sports Physiology and Performance ◽

10.1123/ijspp.2015-0115 ◽

2016 ◽

Vol 11 (2) ◽

pp. 235-239 ◽

Cited By ~ 5

Author(s):

Kristie-Lee Taylor ◽

Will G. Hopkins ◽

Dale W. Chapman ◽

John B. Cronin

Keyword(s):

Mixed Model ◽

Training Phase ◽

Confidence Limits ◽

Mean Power ◽

Random Factor ◽

Jump Performance ◽

Mean Error ◽

Overload Training ◽

The Mean ◽

Error Of Measurement

The purpose of this study was to calculate the coefficients of variation in jump performance for individual participants in multiple trials over time to determine the extent to which there are real differences in the error of measurement between participants. The effect of training phase on measurement error was also investigated. Six subjects participated in a resistance-training intervention for 12 wk with mean power from a countermovement jump measured 6 d/wk. Using a mixed-model meta-analysis, differences between subjects, within-subject changes between training phases, and the mean error values during different phases of training were examined. Small, substantial factor differences of 1.11 were observed between subjects; however, the finding was unclear based on the width of the confidence limits. The mean error was clearly higher during overload training than baseline training, by a factor of ×/÷ 1.3 (confidence limits 1.0–1.6). The random factor representing the interaction between subjects and training phases revealed further substantial differences of ×/÷ 1.2 (1.1–1.3), indicating that on average, the error of measurement in some subjects changes more than in others when overload training is introduced. The results from this study provide the first indication that within-subject variability in performance is substantially different between training phases and, possibly, different between individuals. The implications of these findings for monitoring individuals and estimating sample size are discussed.

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Carbohydrate Drink Use During 30 Minutes of Variable-Intensity Exercise Has No Effect on Exercise Performance in Premenarchal Girls

Pediatric Exercise Science ◽

10.1123/pes.2020-0050 ◽

2021 ◽

Vol 33 (2) ◽

pp. 65-69

Author(s):

C. Eric Heidorn ◽

Brandon J. Dykstra ◽

Cori A. Conner ◽

Anthony D. Mahon

Keyword(s):

Peak Power ◽

Perceived Exertion ◽

Rating Of Perceived Exertion ◽

Fatigue Index ◽

Mean Power ◽

Variable Intensity ◽

Performance Effects ◽

Power Peak ◽

The Mean ◽

And Performance

Purpose: This study examined the physiological, perceptual, and performance effects of a 6% carbohydrate (CHO) drink during variable-intensity exercise (VIE) and a postexercise test in premenarchal girls. Methods: A total of 10 girls (10.4 [0.7] y) participated in the study. VO2peak was assessed, and the girls were familiarized with VIE and performance during the first visit. The trial order (CHO and placebo) was randomly assigned for subsequent visits. The drinks were given before VIE bouts and 1-minute performance (9 mL/kg total). Two 15-minute bouts of VIE were completed (10 repeated sequences of 20%, 55%, and 95% power at VO2peak and maximal sprints) before a 1-minute performance sprint. Results: The mean power, peak power, heart rate (HR), %HRpeak, and rating of perceived exertion during VIE did not differ between trials. However, the peak power decreased, and the rating of perceived exertion increased from the first to the second bout. During the 1-minute performance, there were no differences between the trial (CHO vs placebo) for HR (190 [9] vs 189 [9] bpm), %HRpeak (97.0% [3.2%] vs 96.6% [3.0%]), rating of perceived exertion (7.8 [2.3] vs 8.1 [1.9]), peak power (238 [70] vs 235 [60] W), fatigue index (54.7% [10.0%] vs 55.9% [12.8%]), or total work (9.4 [2.6] vs 9.4 [2.1] kJ). Conclusion: CHO supplementation did not alter physiological, perceptual, or performance responses during 30 minutes of VIE or postexercise sprint performance in premenarchal girls.

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Relationship Between the Critical Power Test and a 20-min Functional Threshold Power Test in Cycling

Frontiers in Physiology ◽

10.3389/fphys.2020.613151 ◽

2021 ◽

Vol 11 ◽

Author(s):

Bettina Karsten ◽

Luca Petrigna ◽

Andreas Klose ◽

Antonino Bianco ◽

Nathan Townsend ◽

...

Keyword(s):

Critical Power ◽

Pearson Correlation ◽

Time Trial ◽

Peak Oxygen Consumption ◽

Threshold Power ◽

Strong Correlations ◽

Mean Power ◽

Power Test ◽

Paired Samples ◽

The Mean

To investigate the agreement between critical power (CP) and functional threshold power (FTP), 17 trained cyclists and triathletes (mean ± SD: age 31 ± 9 years, body mass 80 ± 10 kg, maximal aerobic power 350 ± 56 W, peak oxygen consumption 51 ± 10 mL⋅min–1⋅kg–1) performed a maximal incremental ramp test, a single-visit CP test and a 20-min time trial (TT) test in randomized order on three different days. CP was determined using a time-trial (TT) protocol of three durations (12, 7, and 3 min) interspersed by 30 min passive rest. FTP was calculated as 95% of 20-min mean power achieved during the TT. Differences between means were examined using magnitude-based inferences and a paired-samples t-test. Effect sizes are reported as Cohen’s d. Agreement between CP and FTP was assessed using the 95% limits of agreement (LoA) method and Pearson correlation coefficient. There was a 91.7% probability that CP (256 ± 50 W) was higher than FTP (249 ± 44 W). Indeed, CP was significantly higher compared to FTP (P = 0.041) which was associated with a trivial effect size (d = 0.04). The mean bias between CP and FTP was 7 ± 13 W and LoA were −19 to 33 W. Even though strong correlations exist between CP and FTP (r = 0.969; P < 0.001), the chance of meaningful differences in terms of performance (1% smallest worthwhile change), were greater than 90%. With relatively large ranges for LoA between variables, these values generally should not be used interchangeably. Caution should consequently be exercised when choosing between FTP and CP for the purposes of performance analysis.

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Studies on propagation of laser beam array with initial phase distributions in a turbulent atmosphere

Acta Physica Sinica ◽

10.7498/aps.58.5098 ◽

2009 ◽

Vol 58 (7) ◽

pp. 5098

Author(s):

Zheng Wei-Wei ◽

Wang Li-Qin ◽

Xu Jing-Ping ◽

Wang Li-Gang

Keyword(s):

Laser Beam ◽

Turbulent Atmosphere ◽

Initial Phase ◽

Beam Array

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