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1. Detection of small drizzle droplets in a large cloud chamber using ultrahigh-resolution radar

Author

Z. Zhu, F. Yang, P. Kollias, R. A. Shaw, A. B. Kostinski, S. Krueger, K. Lamer, N. Allwayin, and M. Oue

Subjects
Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787
Abstract

A large convection–cloud chamber has the potential to produce drizzle-sized droplets, thus offering a new opportunity to investigate aerosol–cloud–drizzle interactions at a fundamental level under controlled environmental conditions. One key measurement requirement is the development of methods to detect the low-concentration drizzle drops in such a large cloud chamber. In particular, remote sensing methods may overcome some limitations of in situ methods. Here, the potential of an ultrahigh-resolution radar to detect the radar return signal of a small drizzle droplet against the cloud droplet background signal is investigated. It is found that using a small sampling volume is critical to drizzle detection in a cloud chamber to allow a drizzle drop in the radar sampling volume to dominate over the background cloud droplet signal. For instance, a radar volume of 1 cubic centimeter (cm3) would enable the detection of drizzle embryos with diameter larger than 40 µm. However, the probability of drizzle sampling also decreases as the sample volume reduces, leading to a longer observation time. Thus, the selection of radar volume should consider both the signal power and the drizzle occurrence probability. Finally, observations from the Pi Convection–Cloud Chamber are used to demonstrate the single-drizzle-particle detection concept using small radar volume. The results presented in this study also suggest new applications of ultrahigh-resolution cloud radar for atmospheric sensing.

Published
2024
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2. Assessing Arctic low-level clouds and precipitation from above – a radar perspective

Author

I. Schirmacher, P. Kollias, K. Lamer, M. Mech, L. Pfitzenmaier, M. Wendisch, and S. Crewell

Subjects
Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787
Abstract

Most Arctic clouds occur below 2 km altitude, as revealed by CloudSat satellite observations. However, recent studies suggest that the relatively coarse spatial resolution, low sensitivity, and blind zone of the radar installed on CloudSat may not enable it to comprehensively document low-level clouds. We investigate the impact of these limitations on the Arctic low-level cloud fraction, which is the number of cloudy points with respect to all points as a function of height, derived from CloudSat radar observations. For this purpose, we leverage highly resolved vertical profiles of low-level cloud fraction derived from down-looking Microwave Radar/radiometer for Arctic Clouds (MiRAC) radar reflectivity measurements. MiRAC was operated during four aircraft campaigns that took place in the vicinity of Svalbard during different times of the year, covering more than 25 000 km. This allows us to study the dependence of CloudSat limitations on different synoptic and surface conditions. A forward simulator converts MiRAC measurements to synthetic CloudSat radar reflectivities. These forward simulations are compared with the original CloudSat observations for four satellite underflights to prove the suitability of our forward-simulation approach. Above CloudSat's blind zone of 1 km and below 2.5 km, the forward simulations reveal that CloudSat would overestimate the MiRAC cloud fraction over all campaigns by about 6 percentage points (pp) due to its horizontal resolution and by 12 pp due to its range resolution and underestimate it by 10 pp due to its sensitivity. Especially during cold-air outbreaks over open water, high-reflectivity clouds appear below 1.5 km, which are stretched by CloudSat's pulse length causing the forward-simulated cloud fraction to be 16 pp higher than that observed by MiRAC. The pulse length merges multilayer clouds, whereas thin low-reflectivity clouds remain undetected. Consequently, 48 % of clouds observed by MiRAC belong to multilayer clouds, which reduces by a factor of 4 for the forward-simulated CloudSat counterpart. Despite the overestimation between 1 and 2.5 km, the overall low-level cloud fraction is strongly reduced due to CloudSat's blind zone that misses a cloud fraction of 32 % and half of the total (mainly light) precipitation amount.

Published
2023
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3. Multifrequency radar observations of clouds and precipitation including the G-band

Author

K. Lamer, M. Oue, A. Battaglia, R. J. Roy, K. B. Cooper, R. Dhillon, and P. Kollias

Subjects
Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787
Abstract

Observations collected during the 25 February 2020 deployment of the Vapor In-Cloud Profiling Radar at the Stony Brook Radar Observatory clearly demonstrate the potential of G-band radars for cloud and precipitation research, something that until now was only discussed in theory. The field experiment, which coordinated an X-, Ka-, W- and G-band radar, revealed that the Ka–G pairing can generate differential reflectivity signal several decibels larger than the traditional Ka–W pairing underpinning an increased sensitivity to smaller amounts of liquid and ice water mass and sizes. The observations also showed that G-band signals experience non-Rayleigh scattering in regions where Ka- and W-band signal do not, thus demonstrating the potential of G-band radars for sizing sub-millimeter ice crystals and droplets. Observed peculiar radar reflectivity patterns also suggest that G-band radars could be used to gain insight into the melting behavior of small ice crystals. G-band signal interpretation is challenging, because attenuation and non-Rayleigh effects are typically intertwined. An ideal liquid-free period allowed us to use triple-frequency Ka–W–G observations to test existing ice scattering libraries, and the results raise questions on their comprehensiveness. Overall, this work reinforces the importance of deploying radars (1) with sensitivity sufficient enough to detect small Rayleigh scatters at cloud top in order to derive estimates of path-integrated hydrometeor attenuation, a key constraint for microphysical retrievals; (2) with sensitivity sufficient enough to overcome liquid attenuation, to reveal the larger differential signals generated from using the G-band as part of a multifrequency deployment; and (3) capable of monitoring atmospheric gases to reduce related uncertainty.

Published
2021
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4. Mind the gap – Part 2: Improving quantitative estimates of cloud and rain water path in oceanic warm rain using spaceborne radars

Author

A. Battaglia, P. Kollias, R. Dhillon, K. Lamer, M. Khairoutdinov, and D. Watters

Subjects
Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787
Abstract

The intrinsic small spatial scales and low-reflectivity structure of oceanic warm precipitating clouds suggest that millimeter spaceborne radars are best suited to providing quantitative estimates of cloud and rain liquid water paths (LWPs). This assertion is based on their smaller horizontal footprint; high sensitivities; and a wide dynamic range of path-integrated attenuations associated with warm-rain cells across the millimeter wavelength spectrum, with diverse spectral responses to rain and cloud partitioning. State-of-the-art single-frequency radar profiling algorithms of warm rain seem to be inadequate because of their dependence on uncertain assumptions about the rain–cloud partitioning and because of the rain microphysics. Here, high-resolution cloud-resolving model simulations for the Rain in Cumulus over the Ocean field study and a spaceborne forward radar simulator are exploited to assess the potential of existing and future spaceborne radar systems for quantitative warm-rain microphysical retrievals. Specifically, the detrimental effects of nonuniform beam filling on estimates of path-integrated attenuation (PIA), the added value of brightness temperature (TB) derived adopting radiometric radar modes, and the performances of multifrequency PIA and/or TB combinations when retrieving liquid water paths partitioned into cloud (c-LWPs) and rain (r-LWPs) are assessed. Results show that (1) Ka- and W-band TB values add useful constraints and are effective at lower LWPs than the same-frequency PIAs; (2) matched-beam combined TB values and PIAs from single-frequency or multifrequency radars can significantly narrow down uncertainties in retrieved cloud and rain liquid water paths; and (3) the configuration including PIAs, TB values and near-surface reflectivities for the Ka-band–W-band pairs in our synthetic retrieval can achieve an RMSE of better than 30 % for c-LWPs and r-LWPs exceeding 100 g m−2.

Published
2020
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5. Mind the gap – Part 1: Accurately locating warm marine boundary layer clouds and precipitation using spaceborne radars

Author

K. Lamer, P. Kollias, A. Battaglia, and S. Preval

Subjects
Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787
Abstract

Ground-based radar observations show that, over the eastern North Atlantic, 50 % of warm marine boundary layer (WMBL) hydrometeors occur below 1.2 km and have reflectivities of −17 dBZ, thus making their detection from space susceptible to the extent of surface clutter and radar sensitivity. Surface clutter limits the ability of the CloudSat cloud profiling radar (CPR) to observe the true cloud base in ∼52 % of the cloudy columns it detects and true virga base in ∼80 %, meaning the CloudSat CPR often provides an incomplete view of even the clouds it does detect. Using forward simulations, we determine that a 250 m resolution radar would most accurately capture the boundaries of WMBL clouds and precipitation; that being said, because of sensitivity limitations, such a radar would suffer from cloud cover biases similar to those of the CloudSat CPR. Observations and forward simulations indicate that the CloudSat CPR fails to detect 29 %–43 % of the cloudy columns detected by ground-based sensors. Out of all configurations tested, the 7 dB more sensitive EarthCARE CPR performs best (only missing 9.0 % of cloudy columns) indicating that improving radar sensitivity is more important than decreasing the vertical extent of surface clutter for measuring cloud cover. However, because 50 % of WMBL systems are thinner than 400 m, they tend to be artificially stretched by long sensitive radar pulses, hence the EarthCARE CPR overestimation of cloud top height and hydrometeor fraction. Thus, it is recommended that the next generation of space-borne radars targeting WMBL science should operate interlaced pulse modes including both a highly sensitive long-pulse mode and a less sensitive but clutter-limiting short-pulse mode.

Published
2020
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6. Characterization of shallow oceanic precipitation using profiling and scanning radar observations at the Eastern North Atlantic ARM observatory

Author

K. Lamer, B. Puigdomènech Treserras, Z. Zhu, B. Isom, N. Bharadwaj, and P. Kollias

Subjects
Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787
Abstract

Shallow oceanic precipitation variability is documented using three second-generation radar systems located at the Atmospheric Radiation Measurement (ARM) Eastern North Atlantic observatory: ARM zenith radar (KAZR2), the Ka-band scanning ARM cloud radar (KaSACR2) and the X-band scanning ARM precipitation radar (XSAPR2). First, the radar systems and measurement post-processing techniques, including sea-clutter removal and calibration against colocated disdrometer and Global Precipitation Mission (GPM) observations are described. Then, we present how a combination of profiling radar and lidar observations can be used to estimate adaptive (in both time and height) parameters that relate radar reflectivity (Z) to precipitation rate (R) in the form Z=αRβ, which we use to estimate precipitation rate over the domain observed by XSAPR2. Furthermore, constant altitude plan position indicator (CAPPI) gridded XSAPR2 precipitation rate maps are also constructed. Hourly precipitation rate statistics estimated from the three radar systems differ because KAZR2 is more sensitive to shallow virga and XSAPR2 suffers from less attenuation than KaSACR2 and as such is best suited for characterizing intermittent and mesoscale-organized precipitation. Further analysis reveals that precipitation rate statistics obtained by averaging 12 h of KAZR2 observations can be used to approximate that of a 40 km radius domain averaged over similar time periods. However, it was determined that KAZR2 is unsuitable for characterizing domain-averaged precipitation rate over shorter periods. But even more fundamentally, these results suggest that these observations cannot produce an objective domain precipitation estimate and that the simultaneous use of forward simulators is desirable to guide model evaluation studies.

Published
2019
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7. (GO)2-SIM: a GCM-oriented ground-observation forward-simulator framework for objective evaluation of cloud and precipitation phase

Author

K. Lamer, A. M. Fridlind, A. S. Ackerman, P. Kollias, E. E. Clothiaux, and M. Kelley

Subjects
Geology, QE1-996.5
Abstract

General circulation model (GCM) evaluation using ground-based observations is complicated by inconsistencies in hydrometeor and phase definitions. Here we describe (GO)2-SIM, a forward simulator designed for objective hydrometeor-phase evaluation, and assess its performance over the North Slope of Alaska using a 1-year GCM simulation. For uncertainty assessment, 18 empirical relationships are used to convert model grid-average hydrometeor (liquid and ice, cloud, and precipitation) water contents to zenith polarimetric micropulse lidar and Ka-band Doppler radar measurements, producing an ensemble of 576 forward-simulation realizations. Sensor limitations are represented in forward space to objectively remove from consideration model grid cells with undetectable hydrometeor mixing ratios, some of which may correspond to numerical noise.Phase classification in forward space is complicated by the inability of sensors to measure ice and liquid signals distinctly. However, signatures exist in lidar–radar space such that thresholds on observables can be objectively estimated and related to hydrometeor phase. The proposed phase-classification technique leads to misclassification in fewer than 8 % of hydrometeor-containing grid cells. Such misclassifications arise because, while the radar is capable of detecting mixed-phase conditions, it can mistake water- for ice-dominated layers. However, applying the same classification algorithm to forward-simulated and observed fields should generate hydrometeor-phase statistics with similar uncertainty. Alternatively, choosing to disregard how sensors define hydrometeor phase leads to frequency of occurrence discrepancies of up to 40 %. So, while hydrometeor-phase maps determined in forward space are very different from model reality they capture the information sensors can provide and thereby enable objective model evaluation.

Published
2018
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8. Evaluation of gridded scanning ARM cloud radar reflectivity observations and vertical doppler velocity retrievals

Author

K. Lamer, A. Tatarevic, I. Jo, and P. Kollias

Subjects
Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787
Abstract

The scanning Atmospheric Radiation Measurement (ARM) cloud radars (SACRs) provide continuous atmospheric observations aspiring to capture the 3-D cloud-scale structure. Sampling clouds in 3-D is challenging due to their temporal–spatial scales, the need to sample the sky at high elevations and cloud radar limitations. Thus, a suggested scan strategy is to repetitively slice the atmosphere from horizon to horizon as clouds advect over the radar (Cross-Wind Range-Height Indicator – CW-RHI). Here, the processing and gridding of the SACR CW-RHI scans are presented. First, the SACR sample observations from the ARM Southern Great Plains and Cape Cod sites are post-processed (detection mask, gaseous attenuation correction, insect filtering and velocity de-aliasing). The resulting radial Doppler moment fields are then mapped to Cartesian coordinates with time as one of the dimensions. Next the Cartesian-gridded Doppler velocity fields are decomposed into the horizontal wind velocity contribution and the vertical Doppler velocity component. For validation purposes, all gridded and retrieved fields are compared to collocated zenith-pointing ARM cloud radar measurements. We consider that the SACR sensitivity loss with range, the cloud type observed and the research purpose should be considered in determining the gridded domain size. Our results also demonstrate that the gridded SACR observations resolve the main features of low and high stratiform clouds. It is established that the CW-RHI observations complemented with processing techniques could lead to robust 3-D cloud dynamical representations up to 25–30 degrees off zenith. The proposed gridded products are expected to advance our understanding of 3-D cloud morphology, dynamics and anisotropy and lead to more realistic 3-D radiative transfer calculations.

Published
2014
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10. Developmental adaptations of γδ T cells and B cells in blood and intestinal mucosa from birth until weaning in Holstein bull calves

Author

L.R. Cangiano, K. Lamers, M.F. Olmeda, C. Villot, D.C. Hodgins, B.A. Mallard, and M.A. Steele

Subjects
neonatal immunology, mucosal immunology, calf health, gut health, weaning, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250
Abstract

ABSTRACT: This study aimed to characterize the development of systemic and colon tissue resident B and γδ T cells in newborn calves from birth until weaning. At birth, calves have limited capacity to initiate immune responses, and the immune system gradually matures over time. Gamma delta (γδ) T cells are an important lymphocyte subset in neonatal calves that confer protection and promote immune tolerance. A total of 36 newborn calves were enrolled in a longitudinal study to characterize how systemic and colon tissue resident B and γδ T cells develop from birth until weaning. Blood and colon biopsy samples were collected on d 2, 28, and 42 to determine the proportions of various B and γδ T cell subsets by flow cytometry. We classified γδ T cells into different functional subsets according to the level of expression intensity of the coreceptors WC1.1 (effector function) and WC1.2 (regulatory function). Furthermore, naive B cells were classified based on the expression IgM receptor, and activation state was determined based on expression of CD21 and CD32, 2 receptors with opposing signals involved in B cell activation in early life. Additional colon biopsy samples were used for 16S sequencing, and microbial diversity data are reported. At birth, γδ T cells were the most abundant lymphocyte population in blood, accounting for 58.5% of the lymphocyte pool, after which the proportions of these cells declined to 38.2% after weaning. The proportion of γδ T cells expressing WC1.1 decreased by 50% from d 2 to d 28, whereas no change was observed in the expression of WC1.2. In the colon, there was a 50% increase of γδ T cells after weaning and the proportion of WC1.2+ γδ T cells doubled from d 28 to 42. The proportion of IgM+ B lymphocytes in blood increased from 23.6% at birth to 30% after weaning, were the proportion of B cells expressing CD21 increased by 25%, while the proportion of B cells expressing CD32 decreased by 30%. While no changes were observed for the overall proportion of IgM+ B lymphocytes in the colon, there was a 6-fold increase in the proportion of CD21+ B cells from pre- (d 28) to postweaning (d 42). Microbial diversity increased from d 2 of life to 28 and declined abruptly after weaning. The reduction in microbial diversity during weaning was negatively correlated with the increase in all γδ T cell subsets and CD21+ B cells. These data suggest that developmental adaptations after birth coordinate expansion of γδ T cells to provide early systemic protection, as well as to steer immune tolerance, while B cells mature over time. Additionally, the increase of colonic γδ T cells on d 42 suggests a protective role of these cells during weaning.

Published
2024
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12. A novel method for isolation and flow cytometry analysis of intraepithelial lymphocytes from colon biopsies

Author

K. Lamers, M.A. Steele, and L.R. Cangiano

Subjects
Dairy processing. Dairy products, SF250.5-275
Abstract

Investigating the immune responses of the intestine in response to different insults is predominantly limited to indirect methods such as circulating markers of intestinal health or gene expression from dissections. We describe here a validated protocol for the isolation and subsequent flow cytometry analysis of intestinal intraepithelial lymphocytes (IEL) from colonic biopsy samples. Colon biopsy samples were collected with endoscopy forceps from Holstein dairy bull calves at d 2, 28, and 42 of life. The biopsies were put into an isolation solution of Hanks' balanced salt solution, and fetal bovine serum followed by digestion solution. The solution was filtered and the flow-through, containing IEL, was stained with fluorescent antibodies for flow cytometry analysis. Density gradient separation of the isolate yielded higher viability and cleaner samples for flow cytometry analysis. Anti-bovine γ chain of the T cell receptor was used to identify populations of gamma delta (γδ) T cells via flow cytometry. In addition, γδ T cell subsets were identified using an anti-bovine antibody against the coreceptor workshop cluster 1. This method allowed for the precise identification of lymphocyte populations and evaluation of the proportion of different subsets of γδ T cells from intestinal IEL over time. The technique described here will allow the research community to characterize intestinal immune function over time and improve our understanding of how different management and nutritional strategies affect intestinal health.

Published
2023
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14. Monodispersed sulfur sols. IV. Comparison of the particle radius determined by transmittance and by the angular positions of higher order tyndall spectra from the mie theory

Author

Marion D Barnes, Victor K. LaMer, E.M Zaiser, and Allen S. Kenyon

Subjects
business.industry, Chemistry, Mie scattering, Analytical chemistry, chemistry.chemical_element, General Medicine, medicine.disease_cause, Sulfur, Spectral line, Light scattering, Optics, Transmittance, medicine, Order (group theory), Absorption (chemistry), business, Ultraviolet
Abstract

1. I. Preparation—LaMer and Barnes—J. Coll. Sci. 1, 71 (1946). 2. II. Transmittance in visible—Barnes and LaMer—J. Coll. Sci.1, 79 (1946). Sec also Note on symbols and definitions involved in light scattering equations—J. Coll. Sci.2, 361 (1947). 3. III. Higher order Tyndall spectra in visible—Johnson and LaMer—J. Am. Chem. Soc.69, 1184 (1947), also 67, 2055 (1945). 4. IV. Transmittance in visible and ultraviolet—present paper by Barnes, Kenyon, Zaiser, and LaMer. 5. V. Kinetics of formation—LaMer and Kenyo—J. Coll. Sci.2, 257 (1947). 6. VI. Higher order Tyndall spectra in ultraviolet and effect of consumptive absorption —Kenyon and LaMer (forthcoming).

Published
1947
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15. Electrometric acid-base titrations by means of the quinhydrone electrode and its application under physiological conditions

Author

T. R. Parsons and Victor K. Lamer

Subjects
chemistry.chemical_compound, Platinum black, Quinhydrone electrode, Standard hydrogen electrode, Hydroquinone, Chemistry, Inorganic chemistry, Oxidizing agent, Acid–base titration, Dissolution, Benzoquinone, General Biochemistry, Genetics and Molecular Biology
Abstract

It has recently been shown that an acid solution containing equimolecular proportions of benzoquinone and hydroquinone, a condition which is most easily obtained by dissolving the crystalline addition product, benzoquinhydrone, in the medium under examination, promptly produces a stable and reproducible oxidation-reduction potential on a properly prepared inert electrode, preferably of gold. In acid solutions the observed potential has been shown to be a linear function of the PH and may, therefore, serve as a very simple means of determining hydrogen ion concentrations. For measurements on this system and references to the literature see4. Using this method, Biilmann5 has shown that the potential is stable in a phosphate buffer at PH 6.81, but unstable in an alkaline borate solution at PH 9.24, and further that the method possesses the distinct advantage that it may be used where the platinum black hydrogen electrode is inapplicable, e.g., in the presence of certain mild oxidizing agents as 0.1 M nitric ...

Published
1923
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19. Kinetics of the formation of monodispersed sulfur sols from thiosulfate and acid

Author

Victor K. LaMer and Alien S Kenyon

Subjects
Thiosulfate, Supersaturation, Aqueous solution, Inorganic chemistry, Dispersity, Analytical chemistry, chemistry.chemical_element, General Medicine, Sulfur, law.invention, Ion, chemistry.chemical_compound, Colloid, chemistry, law, Crystallization
Abstract

1. 1. The optical absorption of 0.0015 M NaHSO3, Na2S2O3, and Na2S4O6, in aqueous solution and of sulfur (0.001-0.003 M) in CHCl3, CCl4, CH3COCH3 and CS2 have been measured with the Beckman quartz spectrophotometer, model DU, over the range λ = 390 to 270 mμ. The ions do not absorb above λ = 300 and sulfur does not absorb above 390 mμ. Hence the absorption at λ = 300 can be used to determine sulfur in the presence of these ions. 2. 2. The transmittance of mixtures of dilute thiosulfate and acid has been studied as a function of the time elapsing after mixing at wave lengths of 300, 435 and 560 mμ. 3. 3. The solutions remain crystal clear in the visible (λ = 435 and 560 mμ) for a period of time which depends upon the initial concentrations of acid and of thiosulfate. During this period, however, the transmittance at λ = 300 shows conclusively that sulfur is being continuously formed during the homogeneous period of this reaction. Coincident with the visual appearance of a Tyndall beam, the optical density curves ( log I 0 I ) at all wave lengths exhibit a discontinuity, which is interpreted as corresponding to the formation of discrete sulfur particles from the supersaturated homogeneous solution of sulfur in water. 4. 4. Although the time of appearance of the Tyndall beam depends upon the initial concentrations of thiosulfate and acid, the optical density at that time remains constant, indicating that the transition from true solution to colloidal dispersion of sulfur occurs at a fixed value of supersaturation of sulfur in water, which corresponds approximately to 5 × 10−6 g.-atoms of sulfur/1, of water. 5. 5. Insofar as this method of preparing monodisperse colloids has been investigated, the results are in harmony with von Weimarn's conclusions on “corresponding crystallization conditions.” We intend shortly to discuss the results in terms of the more elaborate theory of Becker and Doering (Ann. Physik24, 719 (1935)).

Published
1947
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21. Monodispersed hydrophobic colloidal dispersions and light scattering properties. I. Preparation and light scattering properties of monodispersed colloidal sulfur

Author

Marion D Barnes and Victor K. LaMer

Subjects
Materials science, business.industry, General Medicine, Polarization (waves), Light scattering, Spectral line, Colloid, Optics, Chemical physics, Particle, Particle size, business, Dispersion (chemistry), Intensity (heat transfer)
Abstract

1. 1. A simple, direct method for the preparation of colloidal dispersions of very uniform particle size has been described. 2. 2. A series of monodispersed sols of different particle sizes has been prepared and stabilized. 3. 3. Monodispersed sols of small particle size exhibit the optical properties predicted by the Rayleigh equation, but in the case of sols of larger particles we have observed the higher order effects that can be predicted from the general electromagnetic theory of light scattering. 4. 4. These higher order effects are characterized by the dispersion of the scattered light resulting in bands (or spectra) of different colors whose intensity, polarization and angular distribution depend upon the particle size.

Published
1946
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32. The influence of the particle size of homogeneous insecticidal aerosols on the mortality of mosquitoes in confined atmospheres

Author

Kenneth C. Hodges, John A. Fales, Irwin B. Wilson, Randall Latta, Victor K. LaMer, and Seymore Hochberg

Subjects
Aerosols, Insecticides, Mosquito Control, Meteorology, Atmosphere, Chemistry, High mortality, Columbia university, Analytical chemistry, General Medicine, Radius, Aerosol, Culicidae, Deposition (aerosol physics), Homogeneous, Animals, Humans, Particle, Particle size, Particle Size
Abstract

Cooperative tests were made between the Bureau of Entomology and Plant Quarantine, and the Central Aerosol Laboratory, Columbia University, to compare the mortalities produced in confined atmospheres by aerosols of different sized particles. Apparatus for the generation of homogeneous aerosols, and instruments and methods of measuring the particle size and concentration, which had been developed by the Central Aerosol Laboratory in previous studies related to screening and other smokes, were utilized. Exposures of 10–30 minutes in aerosol concentrations of around 100 γ/l. were necessary to produce high mortalities when particles of 1 μ or less in diameter were used. Exposure of 0.5–2 minutes in aerosol concentrations of around 25 γ/l. produced high mortality when particles were 5–16 μ in diameter. When Ct (concentration of oil in γ containing 8% DDT multiplied by time of exposure in minutes) values which produced 50% mortality of females (calculated by graphical interpolation) were plotted against particle size, the toxicity was shown to be increased by 250 or more times by increasing the diameter of the particle from 0.33 to 11 μ. This curve corresponds to a curve in which the time necessary for an aerosol to settle out of 1 cc. is plotted against particle size, as calculated according to Stokes' Law and Cunningham's correction. It also shows that the toxicity is proportional to the rate of deposition which, in turn, is proportional to the square of the radius (or diameter) of the aerosol particle for the sizes discussed.

Published
1947
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38. Electrostatic Effects on Ionization Constants

Author

Frank Brescia and Victor K. LaMer

Subjects
Colloid and Surface Chemistry, Chemistry, Ionization, General Chemistry, Atomic physics, Molar ionization energies of the elements, Biochemistry, Catalysis, Electron ionization
Published
1940
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44. Light scattering properties of monodispersed sulfur sols; monochromatic ultraviolet angular scattering; effect of the complex index of refraction upon transmittance

Author

Victor K. LaMer and Allen S. Kenyon

Subjects
Scattering, business.industry, Chemistry, Vision Tests, chemistry.chemical_element, X-ray optics, General Medicine, medicine.disease_cause, Eye, Sulfur, Light scattering, Optics, medicine, Transmittance, Optoelectronics, Monochromatic color, business, Refractive index, Ultraviolet
Published
1949

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