Characteristics of Cirrus Clouds Observed by Laser Radar (Lidar) during the Spring of 1987 and the Winter of 1987/88

Imasu, Ryoichi; Iwasaka, Yasunobu

doi:10.2151/jmsj1965.69.3_401

Cited by 6 publications

(2 citation statements)

References 36 publications

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“…The analytical method to evaluate the integrated backscattering coefficient from lidar observation data was described in another paper (Imasu and Iwasaka, 1991).…”

Section: B Data Analysismentioning

confidence: 99%

Utilization of the 4m Microwave Telescope for the Measurement of Liquid Water Path in Cirrus Clouds

Imasu¹,

Iwasaka

1992

Journal of the Meteorological Society of Japan

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“…The analytical method to evaluate the integrated backscattering coefficient from lidar observation data was described in another paper (Imasu and Iwasaka, 1991).…”

Section: B Data Analysismentioning

confidence: 99%

Utilization of the 4m Microwave Telescope for the Measurement of Liquid Water Path in Cirrus Clouds

Imasu¹,

Iwasaka

1992

Journal of the Meteorological Society of Japan

Self Cite

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“…Starr, 1987;Rashke, 1988), as well as concerted modelling efforts on the part of a few researchers (Starr and Cox, 1985a, b;Jensen et al, 2001a, b), a good deal remains to be learned. Extended ground-based measurements were made by various groups from southern and northern Australia (Platt et al, 1987), the tropical western Pacific region (Platt et al, 1998), Southern Japan (Imasu and Iwaska, 1991), and eastern Great Basin of United States (Sassen and Cho, 1992) to study the geometrical and optical properties of high altitude cirrus. Recent advances in instrumentation have significantly enhanced the capabilities of cirrus cloud research.…”

Section: Introductionmentioning

confidence: 99%

Interdependence of tropical cirrus properties and their variability

2008

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Abstract. The mean properties of tropical cirrus, such as cloud top, cloud base, optic centre, cloud strength/optical depth, asymmetry factor and cloud depolarization, as well as their heterogeneities are examined using lidar observations over 281 nights from a tropical station Gadanki (13.5 • N, 79.2 • E) during the period 1998-2002. This study shows that as the cloud optical depth (τ c ) increases the cloud becomes more asymmetric in its scattering property. The amount of asymmetry is less than 2% for very low values of τ c and increases nonlinearly with an increase in τ c . The physical properties of these clouds also show significant variation with different time scales during the course of each night. On average, while the short-term variations in τ c are in opposite phase with those of the asymmetry factor (ξ ) and volume depolarization ratio (δ), the long-term variation in τ c extending over a night are found to be in opposite phase with that of ξ and in-phase with that of δ. The short-term variations in δ and τ c were attributed to possible changes in the cloud particle orientation and the long period variations to cloud evolution process. The value of δ shows a pronounced variation along the vertical, with low values near the cloud top and cloud base and high values in the middle, which is attributed to the cloud dynamics.

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