Effect of Cavities on the Optical Properties of Bullet Rosettes: Implications for Active and Passive Remote Sensing of Ice Cloud Properties

Yang, Ping; Zhang, Zhibo; Kattawar, George W.; Warren, Stephen G.; Baum, Bryan A.; Huang, Hung‐Lung; Hu, Y.; Winker, David M.; Iaquinta, Jean

doi:10.1175/2008jamc1905.1

Cited by 42 publications

(36 citation statements)

References 71 publications

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“…Next we apply the proposed method to simulated measurements assuming a selection of hexagonal and complex ice crystal habits: droxtals (Zhang et al, 2004), columns, plates, bullet rosettes, aggregates of columns, hollow columns (Yang and Liou, 1998), hollow bullet rosettes (Yang et al, 2008c) and aggregates of plates . Details about the geometries of these crystals are given in the cited references.…”

Section: Complex Habitsmentioning

confidence: 99%

Remote sensing of ice crystal asymmetry parameter using multi-directional polarization measurements – Part 1: Methodology and evaluation with simulated measurements

et al. 2012

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Abstract. We present a new remote sensing technique to infer the average asymmetry parameter of ice crystals near cloud top from multi-directional polarization measurements. The method is based on previous findings that (a) complex aggregates of hexagonal crystals generally have scattering phase matrices resembling those of their components; and (b) scattering phase matrices systematically vary with aspect ratios of crystals and their degree of microscale surface roughness. Ice cloud asymmetry parameters are inferred from multi-directional polarized reflectance measurements by searching for the closest fit in a look-up table of simulated polarized reflectances computed for cloud layers that contain individual, randomly oriented hexagonal columns and plates with varying aspect ratios and roughness values. The asymmetry parameter of the hexagonal particle that leads to the best fit with the measurements is considered the retrieved value. For clouds with optical thickness less than 5, the cloud optical thickness must be retrieved simultaneously with the asymmetry parameter, while for optically thicker clouds the asymmetry parameter retrieval is independent of cloud optical thickness. Evaluation of the technique using simulated measurements based on the optical properties of a number of complex particles and their mixtures shows that the ice crystal asymmetry parameters are generally retrieved to within 5 %, or about 0.04 in absolute terms. The retrieval scheme is largely independent of calibration errors, range and sampling density of scattering angles and random noise in the measurements. The approach can be applied to measurements of past, current and future airborne and satellite instruments that measure multi-directional polarized reflectances of ice-topped clouds.

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Section: Complex Habitsmentioning

confidence: 99%

Remote sensing of ice crystal asymmetry parameter using multi-directional polarization measurements – Part 1: Methodology and evaluation with simulated measurements

et al. 2012

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“…Radiative transfer methods, moreover, allow one to predict how these varying shapes affect the optical properties of cloud particles (Neshyba et al, 2003;Yang et al, 2008a).…”

Section: Introductionmentioning

confidence: 99%

“…Optical micrographs of falling atmospheric ice crystals originating under cirrus-like conditions exhibit mesoscopic texturing of various kinds, including step formation on the inside of hollow hexagonal prisms, and corrugations on the outside (Walden et al, 2003;Yang et al, 2008a); micrographs of laboratory-grown ice crystals exhibit a similarly large array of surface structures (e.g., Hallett and Mason, 1958). Limitations inherent to optical microscopy, however, place definite limits on one's ability to discern details of such structures, and relatively little attention has been paid to how those structures evolve over the time scale pertinent to cirrus cloud formation and dissipation.…”

Section: Introductionmentioning

confidence: 99%

Scanning electron microscopy and molecular dynamics of surfaces of growing and ablating hexagonal ice crystals

2010

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Abstract. We present the first clearly resolved observations of surfaces of growing and ablating hexagonal ice crystals using variable-pressure scanning electron microscopy. The ice surface develops trans-prismatic strands, separated from one another by distances of 5-10 µm. The strands are present at a wide range of supersaturations, but are most pronounced at temperatures near the frost point. Pyramidal facets consistent with Miller-Bravais indices of 1011, and possibly also 2021, are associated with ice growth under these conditions. A molecular-dynamics model of a free-standing ice I h nanocolumn containing 8400 water molecules does not develop trans-prismatic strands, suggesting these features originate at larger spatial or temporal scales. The possible relevance of these surface features to cirrus ice is discussed.

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“…Theoretical light-scattering studies by (Schmitt and Heymsfield 2010;Macke et al, 1996a;Macke et al, 1996b;Yang and Liou, 1998;Yang et al, 2008;van Diedenhoven, 2014b) have shown that the processes of surface roughness and air inclusions within ice crystals can profoundly alter their scattering phase functions. As surface roughness increases, the 22 and 46 • halos are reduced or completely removed, resulting in featureless phase functions with a high degree of side scattering.…”

mentioning

confidence: 99%

On the relationship between the scattering phase function of cirrus and the atmospheric state

et al. 2015

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Abstract. This is the first paper to investigate the relationship between the shape of the scattering phase function of cirrus and the relative humidity with respect to ice (RH i ), using space-based solar radiometric angle-dependent measurements. The relationship between RH i and the complexity of ice crystals has been previously studied using data from aircraft field campaigns and laboratory cloud chambers. However, to the best of our knowledge, there have been no studies to date that explore this relationship through the use of remotely sensed space-based angle-dependent solar radiometric measurements. In this paper, one case study of semitransparent cirrus, which occurred on 25 January 2010 off the north-east coast of Scotland, is used to explore the possibility of such a relationship. Moreover, for the first time, RH i fields predicted by a high-resolution numerical weather prediction (NWP) model are combined with satellite retrievals of ice crystal complexity. The NWP model was initialised at midnight, on 25 January 2010, and the mid-latitude RH i field was extracted from the NWP model at 13:00 UTC. At about the same time, there was a PARASOL (Polarization and Anisotropy of Reflectance for Atmospheric science coupled with Observations from a Lidar) overpass, and the PARASOL swath covered the NWP-model-predicted RH i field. The cirrus case was located over Scotland and the North Sea. From the satellite channel based at 0.865 µm, the directionally averaged and directional spherical albedos were retrieved between the scattering angles of about 80 and 130• . An ensemble model of cirrus ice crystals is used to predict phase functions that vary between phase functions that exhibit optical features (referred to as pristine) and featureless phase functions. For each of the PARASOL pixels, the phase function that best minimised differences between the spherical albedos was selected. This paper reports, for this one case study, an association between the most featureless phase function model and the highest values of NWP-predicted RH i (i.e. when RH i > 1.0). For pixels associated with NWPmodel-predicted RH i < 1, it was impossible to generally discriminate between phase function models at the 5 % significance level. It is also shown that the NWP model prediction of the vertical profile of RH i is in good agreement with dropsonde, in situ measurements and independent aircraft-based physical retrievals of RH i . Furthermore, the NWP model prediction of the cirrus cloud-top height and its vertical extent is also found to be in good agreement with aircraft-based lidar measurements.

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Effect of Cavities on the Optical Properties of Bullet Rosettes: Implications for Active and Passive Remote Sensing of Ice Cloud Properties

Cited by 42 publications

References 71 publications

Remote sensing of ice crystal asymmetry parameter using multi-directional polarization measurements – Part 1: Methodology and evaluation with simulated measurements

Remote sensing of ice crystal asymmetry parameter using multi-directional polarization measurements – Part 1: Methodology and evaluation with simulated measurements

Scanning electron microscopy and molecular dynamics of surfaces of growing and ablating hexagonal ice crystals

On the relationship between the scattering phase function of cirrus and the atmospheric state

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