Presentation is loading. Please wait.

Presentation is loading. Please wait.

Cloud liquid water and ice content by multi-wavelength radar

Published byAlban Blake Modified over 5 years ago

Similar presentations

Presentation on theme: "Cloud liquid water and ice content by multi-wavelength radar"— Presentation transcript:

1 Cloud liquid water and ice content by multi-wavelength radar
Nicolas Gaussiat Henri Sauvageot Anthony J. Illingworth

2 Dual-Wavelength measurements
For a dual-wavelength pair ( Long, Short) : DWR is due to (1) differential attenuation , (2) Mie scattering : In clouds, Mie scattering is more often due to ice. Differential attenuation is dominated by liquid water : A 95 – 35 = 8 dB km-1/g m-3 A 35 – 3 = 2 dB km-1/g m-3

3 F[dB] Assuming a gamma distribution of scatterers :
the Mie scattering term (F) is a function of D0 : 25 F3-95 20 F35-95 F[dB] 15 10 F3-35 5

4 ARM case study (1) Cirrus : (2) Stratocumulus : (3) Mixed phase cloud:
Excepted in cirrus, LWC content derive from differential attenuation ignoring Mie scattering looks good, BUT…

5 Simulating differential attenuation

6 Principle of a triple–wavelength method
With 3 frequencies 3, 35, 95 GHz : k ~ 0.2 and The system is solved using an iterative process : First guess DWR3-35 Mie scattering only  D0 first estimate With D0 ,Mie scattering term F3-94 is predicted (Observed DWR3-94 – predicted F3,94)  Ad3-94 attenuation profile. With Ad3-94  correction First guess : DWR3-35 is now corrected for attenuation When Ad and F profiles are stables LWC is derived from Ad3-94 (Ad94 – 3 = 10 dB km-1/g m-3 )

7 Running triple-wavelength method

8 Using triple-wavelength method in mixed phase clouds

9 Dual-wavelength observables

10 Merging Mie scattering and attenuation

11 Microphysical Parameters Derived From Ad and F

Download ppt "Cloud liquid water and ice content by multi-wavelength radar"

Similar presentations

Estimation of clouds in atmospheric models Tomislava Vukicevic CIRA/CSU and PAOS/CU.

Estimation of clouds in atmospheric models Tomislava Vukicevic CIRA/CSU and PAOS/CU.
Fast lidar & radar multiple-scattering models for cloud retrievals Robin Hogan (University of Reading) Alessandro Battaglia (University of Bonn) How can.

Fast lidar & radar multiple-scattering models for cloud retrievals Robin Hogan (University of Reading) Alessandro Battaglia (University of Bonn) How can.
Robin Hogan, Chris Westbrook University of Reading Lin Tian NASA Goddard Space Flight Center Phil Brown Met Office Why it is important that ice particles.

Robin Hogan, Chris Westbrook University of Reading Lin Tian NASA Goddard Space Flight Center Phil Brown Met Office Why it is important that ice particles.
Ewan OConnor, Anthony Illingworth, Robin Hogan and the Cloudnet team Cloudnet.

Ewan OConnor, Anthony Illingworth, Robin Hogan and the Cloudnet team Cloudnet.
Ewan OConnor, Robin Hogan, Anthony Illingworth Drizzle comparisons.

Ewan OConnor, Robin Hogan, Anthony Illingworth Drizzle comparisons.
Ewan OConnor, Robin Hogan, Anthony Illingworth, Nicolas Gaussiat Liquid water path from microwave radiometers.

Ewan OConnor, Robin Hogan, Anthony Illingworth, Nicolas Gaussiat Liquid water path from microwave radiometers.
Ewan OConnor, Robin Hogan, Anthony Illingworth, Nicolas Gaussiat Radar/lidar observations of boundary layer clouds.

Ewan OConnor, Robin Hogan, Anthony Illingworth, Nicolas Gaussiat Radar/lidar observations of boundary layer clouds.
1 Drizzle rates inferred from CloudSat & CALIPSO compared to their representation in the operational Met Office and ECMWF forecast models. Lee Hawkness-Smith.

1 Drizzle rates inferred from CloudSat & CALIPSO compared to their representation in the operational Met Office and ECMWF forecast models. Lee Hawkness-Smith.
Radar/lidar observations of boundary layer clouds

Radar/lidar observations of boundary layer clouds
Robin Hogan & Julien Delanoe

Robin Hogan & Julien Delanoe
Robin Hogan Julien Delanoë Nicola Pounder Chris Westbrook

Robin Hogan Julien Delanoë Nicola Pounder Chris Westbrook
Robin Hogan Anthony Illingworth Ewan OConnor Nicolas Gaussiat Malcolm Brooks University of Reading Cloudnet products available from Chilbolton.

Robin Hogan Anthony Illingworth Ewan OConnor Nicolas Gaussiat Malcolm Brooks University of Reading Cloudnet products available from Chilbolton.
Robin Hogan, Richard Allan, Nicky Chalmers, Thorwald Stein, Julien Delanoë University of Reading How accurate are the radiative properties of ice clouds.

Robin Hogan, Richard Allan, Nicky Chalmers, Thorwald Stein, Julien Delanoë University of Reading How accurate are the radiative properties of ice clouds.
Robin Hogan & Anthony Illingworth Department of Meteorology University of Reading UK Parameterizing ice cloud inhomogeneity and the overlap of inhomogeneities.

Robin Hogan & Anthony Illingworth Department of Meteorology University of Reading UK Parameterizing ice cloud inhomogeneity and the overlap of inhomogeneities.
Robin Hogan A variational scheme for retrieving rainfall rate and hail intensity.

Robin Hogan A variational scheme for retrieving rainfall rate and hail intensity.
Modelling radar and lidar multiple scattering Modelling radar and lidar multiple scattering Robin Hogan The CloudSat radar and the Calipso lidar were launched.

Modelling radar and lidar multiple scattering Modelling radar and lidar multiple scattering Robin Hogan The CloudSat radar and the Calipso lidar were launched.
DYMECS: Dynamical and Microphysical Evolution of Convective Storms (NERC Standard Grant) University of Reading: Robin Hogan, Bob Plant, Thorwald Stein,

DYMECS: Dynamical and Microphysical Evolution of Convective Storms (NERC Standard Grant) University of Reading: Robin Hogan, Bob Plant, Thorwald Stein,
Cloud Radar in Space: CloudSat While TRMM has been a successful precipitation radar, its 17-18 dBZ minimum detectable signal does not allow views of light.

Cloud Radar in Space: CloudSat While TRMM has been a successful precipitation radar, its dBZ minimum detectable signal does not allow views of light.
Exploiting multiple scattering in CALIPSO measurements to retrieve liquid cloud properties Nicola Pounder, Robin Hogan, Lee Hawkness-Smith, Andrew Barrett.

Exploiting multiple scattering in CALIPSO measurements to retrieve liquid cloud properties Nicola Pounder, Robin Hogan, Lee Hawkness-Smith, Andrew Barrett.
7. Radar Meteorology References Battan (1973) Atlas (1989)

7. Radar Meteorology References Battan (1973) Atlas (1989)

Similar presentations

Ads by Google